Newest China Rubber Machinery Market Study Report 2016 – Acute Market Reports

According to the statistics of China Chemical Industrial Gear Association on 30 significant rubber machinery manufacturers in 2012, (http://www.acutemarketreports.com/report/china-rubber-machinery-market-report-2013-2016) China’s rubber machinery sales witnessed a year-on-year reduce of 7.8%, of which, enterprises with falling sales accounted for 70% of the total number of enterprises, these with a decline of 20% accounted for 30%. Changzhou Wujin Yanghu Mould Co., Ltd, for undertaking big-scale engineering tire building drum orders, saw substantial sales growth of 120%.

In 2012, adjustments happened to the ranking of China’s best 5 rubber machinery companies, from MESNAC, Dalian Rubber &amp Plastics Machinery, Yiyang Rubber &amp Plastics Machinery, Guilin Rubber Machinery, Qingdao Doublestar Rubber &amp Plastic Machinery in 2011 to MESNAC, Dalian Rubber &amp Plastics Machinery, Yiyang Rubber &amp Plastics Machinery, Tianjin Saixiang Technologies and Guilin Rubber Machinery.

Regarding rubber machinery market segments, the hydraulic vulcanizing machine market place is thriving. In 2012, there have been almost ten hydraulic vulcanizing machine manufacturers in China, such as Guilin Rubber Machinery, Yiyang Rubber &amp Plastics Machinery, Fujian Huaxiang Automatic Control Technology, Himile Mechanical Science and Technology, and so on., with annual production capacity exceeding 400 units, amongst which, Guangdong Greatoo Molds Inc. as a devoted maker of hydraulic vulcanizing machine accomplished the fastest development. In future, China’s demand for radial tire will bring enterprise opportunities to the development of hydraulic vulcanizing machine Sino Marketplace Insight forecasts that in 2016, China’s hydraulic vulcanizing machine marketplace demand will be about 1,000 units.

The report mainly involves six chapters and 70 charts, covering size and competitors pattern of worldwide and Chinese rubber machinery markets, size and future demand of China rubber machinery industry segments, rubber machinery company of seven global leading firms as nicely as short overview, economic status, capacity distribution, product classification and most recent developments of 15 Chinese organizations.

View Complete Report: http://www.acutemarketreports.com/report/china-rubber-machinery-industry-report-2013-2016

1. Macro-financial Environment in China, 2011-2013
1.1 China’s GDP
1.2 Industrial Added Value
1.three Fixed Investment
1.four Consumption in Stable Development
1.5 Import &amp Export
1.six Price Level
1.7 Macroeconomic Forecast 2012-2013E

two. Rubber Machinery Market
two.1 Definition
two.2 Laws &amp Regulations
two.three Sector Chain

three Global and China Rubber Machinery Industry Size &amp Forecast
3.1 Worldwide Rubber Machinery Marketplace Size
three.1.1 Overview
three.1.two Competition
three.two China Rubber Machinery Industry Size
3.two.1 Overview
3.2.two Competition

4. Marketplace Segments
four.1 Internal Mixer
4.1.1 Introduction
4.1.two Marketplace Profile
four.2 Radial Tire Molding Machine
four.two.1 Definition
4.2.2 Industry Profile
4.two.three Market place Demand
4.three Vulcanizing Machine
four.three.1 Market Profile
four.three.two Hydraulic Vulcanizing Machine
4.3.three Market Demand
four.four Tire Mold
4.4.1 Marketplace Profile
four.four.2 Competition

5. Foreign Firms
5.1 HF Group
five.1.1 Profile
5.1.2 Rubber Machinery Revenue
five.1.three HF in China
five.two KOBELCO (TSE: 5406)
5.two.1 Profile
five.2.2 Key Financial Indicators
5.two.three Rubber Machinery
5.two.four KOBELCO in China
five.three VMI Holland BV
five.three.1 Profile
five.three.two Rubber Machinery
5.three.three VMI in China
5.4 Mitsubishi Heavy Industries
five.4.1 Profile
five.four.two Main Financial Data
five.four.three Rubber Machinery
five.4.four MHI in China
five.five Larsen &amp Toubro
5.5.1 Profile
5.5.two Rubber Machinery
five.5.3 L&ampT in China
five.six Continental
5.six.1 Profile
5.six.two Rubber Machinery
5.7 Desma
5.7.1 Profile
five.7.2 Rubber and Plastic Mold Enterprise
five.7.3 Desma in China

View all reports of this category @ http://www.acutemarketreports.com/category/machinery-market place

6. Chinese Firms
6.1 Mesnac Co., Ltd.
6.1.1 Profile
6.1.two Important Monetary Indicators
six.1.3 Income and Gross Margin by Sector
six.1.4 Income and Gross Margin by Solution
6.1.five Income and Gross Margin by Region
six.1.six International Organization
6.1.7 Low-Mid Finish Oriented Customer Structure Causes Decline in 2012 Functionality
six.1.8 Strategic Path for Rubber Machinery
six.1.9 Production and Management Mode
6.2 Tianjin Saixiang Technology Co., Ltd.
6.two.1 Profile
six.two.two Crucial Monetary Indicators
six.two.3 Income and Gross Margin by Sector
six.2.four Revenue and Gross Margin by Item
six.2.5 Income and Gross Margin by Region
six.two.6 Main Subsidiaries
six.three Dalian Rubber &amp Plastics Machinery Co., Ltd.
six.3.1 Profile
6.3.2 Essential Monetary Indicators
6.3.three Revenue and Gross Margin by Sector
six.3.4 Income and Gross Margin by Item
6.three.five Revenue and Gross Margin by Area
six.four Guangdong Greatoo Molds Inc. (002031)
6.four.1 Profile
six.4.2 Essential Financial Indicators
6.four.three Revenue and Gross Margin by Sector
6.4.four Income and Gross Margin by Product
six.four.5 Revenue and Gross Margin by Area
six.four.six Global Company
six.4.7 Hydraulic Vulcanizing Machine Capacity
6.5 Himile Mechanical Science and Technologies Co., Ltd. (002595)
6.five.1 Profile
six.five.two Important Financial Indicators
six.five.three Income and Gross Margin by Sector
six.5.four Revenue and Gross Margin by Item
6.five.5 Revenue and Gross Margin by Region
6.5.6 Main Buyers
6.five.7 Key Subsidiaries
6.5.8 Key Projects
six.six Shenyang Blue Silver Automation Science and Technology Co., Ltd. (300293)
6.six.1 Profile
6.6.2 Key Monetary Indicators
six.6.3 Income and Gross Margin by Sector
6.six.4 Revenue and Gross Margin by Solution
6.six.five Income and Gross Margin by Area
six.6.6 High-speed Development of Radial Tire Molding Machine Sector
six.7 Yiyang Rubber &amp Plastics Machinery Group Co., Ltd.
6.7.1 Profile
6.7.two Income
six.8 Guilin Rubber Machinery Factory
six.8.1 Profile
six.8.2 Operation
6.9 Qingdao Doublestar Rubber &amp Plastic Machinery Co., Ltd.
6.10 Fujian Huaxiang Automatic Manage Technologies Co., Ltd.
six.11 Beijing BAMTRI Dairui Technology Development Co., Ltd.
six.12 Beijing Jingyie Mechanical Gear Co., Ltd.
six.13 Guangzhou SCUT Bestry Technology Co., Ltd.
six.14 Sichuan Yaxi Rubber &amp Plastics Machinery Co., Ltd.
6.15 Dalian CanMade Rubber &amp Plastics Machinery Co., Ltd.

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Cool China Injection Moulding Procedure images

Cool China Injection Moulding Procedure images

Check out these china injection moulding procedure photos:

Dollmination
china injection moulding process
Image by Danny Choo
Soon after a number of meetings with different angel investors, I accepted an investment of 30 million USD for a 15% share of Mirai Robotics. I will sustain complete autonomy in regards to company and monetary decisions beneath the condition that I sell 1 million Smart Dolls by Feb 2018 and the points below cover exactly how I’m going to do this.

2014/05: Smart Doll Manual version is released.
2014/07: Sensible Doll OuterShell (外皮) factory setup complete for vinyl pulls.
2014/10: Smart Doll OuterShell injection molding design and style total.
2014/11: Acquisition of doll wig and apparel studio in Korea, Thailand, Vietnam, Hong Kong and Barcelona.
2014/12: Launch of Smart Doll Injection Molded OuterShell version in time for the vacation Christmas season worldwide. Anticipated quantity of units sold is 20,000. Mirai Robotics staff numbers reach 200.
2014/12: Intelligent Doll Automatic version is released.
2015/02: Open Wise Doll shops in Jakarta, Kuala Lumpur, Hong Kong, Bangkok, New York, Tokyo, London.
2015/12: 200,000 units of Sensible Doll sold. Mirai Robotics staff numbers reach 450. Smart Doll stores open in Seattle, Vancouver, Moscow, Manila, China, Korea.
2016/12: 500,000 units of Wise Doll sold.
2017/06: Open Wise Doll Retailers in Dubai, France, Milano. 800,000 units of Intelligent Doll sold
2018/02: 1 million units of Smart Doll sold. Total staff count at this time is 950.
The injection molding approach of the OuterShell and acquisition of accessory makers will make certain that growth will be agressive.

View more at www.dannychoo.com/en/post/27177/Dollmination.html

Cool Precision Molds Created In China pictures

Cool Precision Molds Created In China pictures

Some cool precision molds produced in china images:

Steven F. Udvar-Hazy Center: View of south hangar, which includes B-29 Superfortress “Enola Gay”, a glimpse of the Air France Concorde, and several other individuals
precision molds made in china
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress &quotEnola Gay&quot:

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of Planet War II and the 1st bomber to home its crew in pressurized compartments. Although created to fight in the European theater, the B-29 identified its niche on the other side of the globe. In the Pacific, B-29s delivered a range of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August six, 1945, this Martin-constructed B-29-45-MO dropped the first atomic weapon employed in combat on Hiroshima, Japan. 3 days later, Bockscar (on show at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Wonderful Artiste, flew as an observation aircraft on each missions.

Transferred from the United States Air Force.

Manufacturer:
Boeing Aircraft Co.
Martin Co., Omaha, Nebr.

Date:
1945

Country of Origin:
United States of America

Dimensions:
General: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Components:
Polished overall aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and higher-aspect ratio wings. Polished aluminum finish general, common late-Globe War II Army Air Forces insignia on wings and aft fuselage and serial quantity on vertical fin 509th Composite Group markings painted in black &quotEnola Gay&quot in black, block letters on lower left nose.

Cool Mould Generate Solutions images

Cool Mould Generate Solutions images

Some cool mould produce services images:

Best shot of Booloominbah erected 1888 in Armidale. Now the University of New England.
mould produce services
Image by denisbin
The University of New England was the first Australian university established outside of a capital city. It started life as the New England University College in 1938 as a college of the University of Sydney. Several local people worked hard for the College to become an independent university and they were successful in 1954. In 1989 it subsumed the Armidale College of Advanced Education (previously the Armidale Teachers’ College.) The main campus is 5 kms from the city centre with central administration in Booloominbah House. From its inception it has always catered for distance education students and those wanting to study agriculture. It is the largest distance education university in Australia with around 15,000 external students. It has faculties of law, education, arts, science, medicine, the environment etc. It has wide research foci but it cooperates with the CSIRO on agriculture and science research and it is well known for its agricultural business research and farm animal genetics research. It has around 700 research students enrolled for a PhD at any one time. The Vice Chancellors have included some well known Australians including former Governor General Sir Zelman Cowen. The well known graduates include: Dean Brown (Premier of SA); Bernie Fraser (former Governor Reserve Bank); Barnaby Joyce (Australian Senator); Tony Windsor (current Independent in Parliament). The UNE also has a well developed residential college network with the most famous being Drummond and Smith as around half of it students reside on campus. Drummond was the NSW Education Minister who established the Armidale Teachers College. This College used Smith House on Central Park for many years. It has about 200 residents. The college began in Girrahween House in 1928 for students attending the Armidale Teachers College. When the University merged with the Teachers College, Drummond and Smith Residential Colleges went to the University. The college crest is depicted above the door of Girrahween House which was built in 1889. The University has several other campuses in Armidale the main one being Newling campus, now the Conservatorium of Music. It was the former Armidale Teachers College. UNE has a mosque on campus.

The Dixson Library.
The heart of any university is its library. It is near Booloominbah and the Museum of Antiquities. In 1938 the university library was a room in Booloominbah. Then Sir William Dixson donated a large grant for a purpose built library in 1961. Dixson’s wealth was based on the tobacco industry and his family operations included Adelaide in the 19th century. William’s father was a devout Baptist and donated to many organisations including Sydney Medical Mission, Ryde Home for Incurables, the YMCA, the University of Sydney, the Baptist Church etc. William Dixson (1870-1952) was a collector of Australiana and rare books. He donated many rare manuscripts and books to the Mitchell Library in the 1920s, then he decided to found the UNE library.

Booloominbah.
As visitors we can enter the house and have lunch there. The Brasserie opens at noon. There is also a court yard café and bar. This will provide an opportunity to explore some areas of the house and view the wonderful stained glass windows. Remember the house is noted for its wooden panelling, windows, fine joinery etc.

The Museum of Antiquities.
This is a rare regional antiquities museum for Australia. Its collections began in 1959 when the university established its Department of Classics. It has antiquities from the Middle East, the Mediterranean, South East Asia, and the Pacific. Entry is free.

Trevenna House.
Trevenna is the residence of the Vice Chancellor and it was designed by John Horbury Hunt in the Canadian style. It was built in 1892 (Hunt died 1903) as another house besides Booloominbah for members of the White family. Mrs Eliza Jane White occupied Trevenna. The three storey house of mixed materials, wood and plaster was gifted to the University of New England by Mrs. Florence Wilson in 1960. Since then it has been the Vice Chancellor’s home. There is no public access to the house or the gardens. It is not visible from the road. The gardens include sweeping lawns, dry stone walls, herb gardens, hedges, ponds and English trees such as Horse Chesnuts, London Planes etc. Trevenna’s gardens were featured in a Woman’s Weekly special in 1971.

Schools.
The first Anglican school opened in Armidale in 1847 with the first Catholic school following in 1856. A public school opened in 1861 and survived with various name changes until it became Armidale City Public School. In the 1850s, 1860s and 1870s state aid to church schools prompted more schools to start up in Armidale but few survived. The new Education Act of 1880 which removed any state aid led to the demise of many church schools and the rise of the state public school system in NSW. But Armidale has always been an education centre providing schools, and often boarding facilities for country children. The main private and state secondary schools in Armidale are:
•St. Ursuline College for girls, 1882 and De La Salle Catholic College for boys which was founded in 1906. The two amalgamated in 1975 to form O’Connor Catholic High School. It is no longer a boarding school. It has an enrolment of around 450 students.
•The Armidale School – TAS. TAS was founded in 1891 as the New England Proprietary School with it opening for enrolments in 1894.The local Anglican Bishop, Tyrrell had promoted the idea of an Anglican boys school for the sons of the New England gentry. The school adopted the name TAS in 1896. It has extensive grounds (44 acres), excellent facilities and several historic buildings including the chapel. For many years it was run by the Diocese of Armidale but it is now a company limited by guarantee. The Armidale School has approximately 620 students, including 200 boys boarding there. Well known architect John Sulman designed the original boarding house. Influenced by William Morris he used Armidale blue bricks and Flemish bond brick work. The chapel as designed by Cyril Blacket who also designed the Gothic University of Sydney. The TAS Gothic style Chapel opened in 1902 also using Armidale blue bricks in the Flemish bond pattern.
•Presbyterian Ladies College Armidale, is an independent Presbyterian girls boarding school which was founded in 1887.New England always had a large Scottish and Presbyterian population. It is affiliated with PLC in Sydney. In the early years it was run by several principal owners and it started out as New England Ladies College. It began in Smith House near Central Park in 1887. It was next known as Hilton College before being purchased by the Presbyterian Church in 1938. It moved to a new 70 acre site on the edge of Armidale in 1945. It has an enrolment of 400 girls with almost 100 boarders. Due to financial difficulties it was merged with PLC Sydney in 2005 and the one principal now runs both schools.
•NEGS, New England Girls School. This is an independent Anglican girls’ boarding school which was established in 1895 at almost the same time as the TAS school for boys. In 1907 NEGS was purchased by the Diocese of Armidale and run as a church school. It has always had an excellent academic reputation. It has an enrolment of around 310 students with almost half or 150 being boarders. In 2006 due to financial difficulties a merger with PLC was considered. Old scholars and parents raised millions to keep the school Anglican and independent. Australia’s well known poet Judith Wright attended NEGS.
•Armidale High School. This state high school as established in 1920. It has over 650 students.
•Duval High School. This state high school was established in 1974. It was named after one of the assigned convict stockmen who worked on William and Henry Dumaresq’s Saumarez and Tilbuster stations in the 1830s. It has an enrolment of around 800 students.

The Development of Armidale. What is so special about Armidale? Well it is a cathedral city with both Anglican and Catholic cathedrals; it is a wealthy city with a prosperous hinterland and many mansions; it is Australia’s highest city with a bracing English style climate; it is an education city with a university and several prestigious boarding schools; it was one of a number of sites considered for the Australian capital city site after Federation; it has been one of the centres wanting to secede from the rest of NSW; and it has an interesting history with a squatting phase, mining phase, agricultural phase etc. It is also a regional capital and has always been considered the “capital” of the New England region – a distinctive Australian region defined by rainfall, altitude, etc. And it has always been on the main inland route between Sydney and Brisbane but that is no longer of importance in this aviation transport era.

The origins of Armidale district go back to Henry Dumaresq when he squatted on land here and took out leaseholds on Saumarez and Tilbuster stations in 1834. He and other squatters soon displaced the local aboriginal people after a period of considerable violence. The turning point in terms of the city came in 1839 when George Macdonald was appointed Commissioner for Crown Lands for the New England District. He arrived with a small police force and he set about building a house and office headquarters. The site he chose is now Macdonald Park. NSW land regulations allowed the government to set aside reserves for future towns or to resume leasehold land for the creation of towns. Macdonald immediately surveyed the local landowners of which there were 37 in New England, giving it a population of 422 people. But this was the convict era of NSW and half of the population were assigned convicts. They provided the brawn to develop the stations, build the shepherd’s huts, dig the wells and dams, and fell the timber and clear the land. Of the original 422 people in New England only 10 were females, probably wives of shepherds or convict women who were cooks etc. Most stations had between 8 and 12 assigned convicts. Saumarez for example, had 11 convicts and 8 free male workers in 1839. In 1841 convicts still accounted for 42% of the population of New England and as they completed their seven year terms, many stayed on to become the founders of towns like Armidale. Transportation of convicts to NSW ceased around 1843 and so convict assignees gradually declined in the region, but ex-convicts remained.

Macdonald named the town site Armidale after the Armadale estate on the Isle of Skye. Macdonald had barracks built for the police men, stables, a store shed, his own house and he enclosed some paddocks for the growing of wheat and vegetables. His first years were often taken up with writing reports about Aboriginal massacres and deaths including the Bluff Rock Massacre on the Everett brothers’ run at Ollera near Guyra. Macdonald seldom investigated reports of Aboriginal deaths closely. He was a pompous little man, just 4 feet 10 inches tall with a deformed hunched back. But he was meticulous in most matters. In 1841 he was jilted just before his proposed wedding to a local woman. He remained in Armidale until 1848 overseeing the early development of the town.

By 1843 a small town had emerged with a Post Office and a Court House, blacksmith, wheelwright, hotel, general store etc. The town provided government and commercial services to the surrounding pastoral estates. But the town reserve included other lands that were sold or leased to farmers- agriculturists who grew wheat. By 1851 Armidale had two flour mills. The long transport route to Newcastle and on to Sydney meant all wheat had to be converted to flour before it was transported to the markets. The old dray route down to the coast was also used for the transport of the region’s major product- wool. The official town was surveyed and the streets laid out in 1849. Many of the early pastoralists were commemorated in street names – Beardy, Dumaresq, Dangar, Marsh, Faulkner and Rusden to name a few.

In 1851 Armidale also had local industries for the regional population- two breweries, general stores, chemist, butcher etc. In the early 1850s the churches began to erect their first buildings and the town became “civilised” with more and more women living there. Then gold discoveries near Uralla and towards the eastern escarpment boosted the town’s population and services. A newspaper was founded, a hospital was built and the population reached 858 in 1856. A gaol was built on South Hill in 1863, the town became a municipality in 1864, and the Robertson’s Land Acts (1861) were introduced throughout NSW to break up the big pastoral estates for ‘selectors” or small scale farmers on 320 acre blocks. This boosted the total population of the Armidale region but as noted elsewhere the pastoralists also used this era to buy up large lots of land freehold for themselves by the process of “dummying”- using relatives and employees to buy small parcels of land which they sold on to the large land owners. But the early years of growing wheat around Armidale collapsed in the 1870s as the wheat lands of South Australia opened up and cheap SA imports destroyed the New England wheat industry. Other forms of agriculture were then taken up in New England.

Another key factor in the growth of Armidale in the late 1870s and into the 1890s was its English style climate. In 1885 Armidale was proclaimed a city. It had a population of 3,000 residents – a remarkable achievement for a locale so far from the coast. This was of course boosted further with the arrival of the railway in Armidale in 1883. The line soon reached the Queensland border with a connection on to Brisbane. But the railway was not all good news as the city of Armidale could then receive beer and other supplies on the railway from Newcastle or Sydney and some local industries closed down with the arrival of the railway. By the 1880s the boom years were apparent as large mansions and prominent commercial buildings were erected in the growing city.

The fact that Armidale is equidistant from Sydney and Brisbane was one of the factors considered in its application to become the new Federal capital. The fact that Armidale had nearby reservoirs and a large water supply big enough for a large capital city was also an important consideration. The new Federal government was considering the site of the capital city after a long drought so access to water supplies was a major concern. As we known the site of Canberra near Yass was finally selected despite its lesser supply of water but it was closer to Sydney.

Regional Art gallery and Aboriginal Art Centre.
This gallery is one of the regional galleries funded by the NSW government. It is especially noted for its outstanding collection of Australia Art which was donated to the gallery by Howard Hinton (1867-1948.) Hinton was a company director and art collector. Despite poor eyesight he travelled the world looking at galleries and he befriended several artists. In Sydney he met and lived with noted Australian painter such as Tom Roberts, Arthur Stretton and Julian Ashton. He made his first donation of art to the National Gallery of NSW in 1914. Over the years he gave 122 paintings to that gallery. He was a trustee of the National Gallery of NSW from 1919-1948. He was knighted in 1935 for his services to art. In 1928 when the National Gallery of NSW refused some of his donations he decided to endow the relatively new Teachers’ College at Armidale with a collection of art. The Director of Education who was in charge of the College concurred with the idea and the first paintings were received in Armidale in 1929. He later gave over 1,000 paintings to the Teachers’ College and over 700 art books for its library. His collection illustrated the development of Australian art in particular from the 1880s through to the 1940s. The artist Norman Lindsey described the collection as the only complete collection of Australian art. A portrait of Howard Hinton is held by the former Armidale College of Advanced Education which is now part of the University of New England. The art collection has been transferred on to the Armidale Regional Art Gallery. The Hinton Collection is partially on display always. The Persian Love Cake in the Art Gallery café is to die for!

Teachers College and the Education Museum.
In the 19th century most school teachers were untrained but a few were trained in Fort Street Normal School in Sydney from 1848. The first teachers college was not established until 1912 in some temporary buildings. The college opened in new premises in 1920 which were not completed until 1924. But Armidale got the second teachers college in NSW in 1928 with its first proper building being constructed in 1930 at the height of the Great Depression. Why was this so? The answer is political. New England was in the midst of a secession movement in the late 1920s and New England was the home to several Country Party politicians with great influence. The Country Party came to power in NSW in 1927 and the new Minister for Education, David Drummond was the local member for New England. Drummond favoured a second teachers college because the staff at Sydney Teachers College had complained that country students coming to Sydney to be trained were being seduced by the ways of the sinful city and they seldom wanted rural school postings after a stint in Sydney! A Teachers College in Armidale would stop the debauchery! Although Armidale Teachers’ College was the first, the government made plans for additional teachers colleges in Bathurst and Wagga Wagga which eventually were established. The 1863 gaol in Armidale was closed in 1920 and was demolished to make way for the new teachers college building. As one commentator said at the time “a new Parthenon on the hill was to replace the penitentiary on the hill”!

The government appointed Cecil Bede Newling (1883-1975) as the principal of the new college. Today the old Teachers College building is named the Newling building. Newling had gone out as a probationary teacher in 1899 before attending courses at Fort Street Normal School from 1904. He later described his teacher training as dull. He was first appointed head teacher at Cootamundra in 1923, and then inspector at Broken Hill in 1925. He had a rapid rise in the Education Department. By 1925 he had also been awarded a BA and a MA from the University of Sydney. As first principal of the Armidale Teachers College he influenced everything. He had a forceful personality and took interest in all aspects of the College from the grounds and gardens to the curriculum and to the health of the students. During World War Two he became secret custodian of priceless art and written materials from the Mitchell Library and the National Gallery of NSW. He retired in 1947 with his “college on the hill” well established and valued. It is open weekday afternoons from 2 to 4 pm to members of the public.

Central Park Historical Walk and Nearby Structures.
The buildings of significance around Central Park are the old Wesley Methodist Hall and the now Uniting Church- just off the Park in Rusden Street; St. Paul’s Presbyterian Church and Hall; St. Peter’s Anglican Cathedral, Deanery and Parish Hall; and St. Mary’s Catholic Cathedral. Nearby along Faulkner Street is the Town Hall( just off Faulkner), the Post Office, the Court House, and the entrance to the Mall.
•Masonic Building. The Lodge here in Armidale purchased this land in 1860 and had a lodge built by a local builder Frederick Nott. A new severe classical style Lodge was erected in 1924 to replace the earlier one.
•Lindsay House is at 128 Faulkner Street and it dates from the mid 1920s. It is a mock Tudor house with exposed beams and woodwork on the exterior and stucco areas. This “English” style of house was popular in New England at this time. It is a typical “gentleman’s “house and it was built for a local doctor. In 1972 the former Armidale College of Advanced Education purchased the house for staff accommodation and they renamed it Lindsay House. Today it is a luxury bed & breakfast establishment.
•Southall is a fine 1888 residence at 88 Barney Street oppopsite Central Park. At one stage it was called Girrawheen Boarding House as it provided accommodation for the girls enrolled at New England Ladies College. This house was purchased in 1928 by the Armidale Teachers’ College for accommodation for female teaching students. It was linked to Smith House, next door, in 1960 and then became a university residential college but it is now a backpackers complex. Apart from wrought iron lace work it features two toned brick work on the quoins and the bricks are done in Flemish bond pattern.
•Catholic Cathedral and Convent. See next page.
•Anglican Cathedral and Deanery. See next page.
•St. Paul’s Presbyterian Church. The foundation stone dates the building to 1881. Its Gothic style, tall steeple, wrought iron decorations and lancet windows add considerably to the appearance of Central Park. The white painted masonry quoins, window surrounds etc contrast sharply with the dark coloured bricks.
•Old Wesley Methodist Hall and Church. The Old Wesley Church was erected in 1864 and is one of the oldest still standing churches of Armidale. It was replaced by a new Methodist Church in 1893 and it then became the church hall. The Old Wesley Church also has Red Cedar joinery inside.
•The Folk Museum. This is housed in the old School of Arts and Mechanics Institute building of 1863. Such places were crucial education centres in the 19th century. It was used as the town library for many years and is now a museum.
•Armidale Town Hall. This impressive structure was completed in 1883 just before Armidale became a city in 1885. It has many decorative features including pilasters (flat columns), scroll work, a central triangular pediment above the main entrance, a niche like entrance with a curved upper balcony and balustrade. In 1990 the City decorated the interior in Art Deco style!
•The Armidale Post Office. The first PO was established in 1843. This building was constructed in 1880. The beautiful arched veranda and upper balcony were added in 1897. It is still the city Post Office.
•Lands Board building now the Lands Office. This elegant building with its filigree lace work on the upper balcony and the lower veranda originally had a slate roof and slate chimney pots. The symmetry of this building is superb. It was designed by the same architect who did the government Post Office next door and the style would date it to the same period -1880.
•Opposite are the architectural plans for the amazing Imperial Hotel. It was built in 1890 William Miller who was of the original discoverer of gold at Hillgrove. He made his fortune on the gold fields and then erected the finest hotel in Armidale. It is noted for its proportions, classical style, ornate parapets along the roof line and filigree caste iron. The urns atop the “floating” triangular pediments are wonderful. It demonstrates how important the travelling public were to early hoteliers like William Miller. Miller began life as a poor farmer at Saumarez Ponds. It is run down today.
•On the opposite corner is the current Westpac Bank. It was formerly the Bank of NSW and it was put up in 1938 in classical style. The 1817 on the parapet refers to the founding of the Bank of NSW by Mary Reibey, a former convict, depicted on our note. Along from this is the marvellous AMP building with its statute on top.
•Armidale Court House in the Mall. This imposing building with a classical Greek façade with columns, and wrought iron gates was built in 1859. It was extensively altered in 1870 when the two side wings were attached. The clock tower was added in 1878. Inside the joinery is all Australian Red Cedar. Note the cobblestoned courtyard. At the rear of the Court House is the original Sheriff’s Cottage (1870) which was originally a “lock up “for prisoners!
•Hanna’s Arcade in Barney Street. See the leadlight mural, wooden arcade, and fine department store.

Catholic Cathedral and building.
The first Catholic priest to arrive in Armidale came in 1853. He took services in a small wooden Catholic Church that had opened in 1848. The priest then built a parsonage which became part of De La Salle College, now O’Connor High School. It has since been demolished. In 1862 the Catholic Diocese of Armidale was established but it was 1869 before the first bishop, Bishop O’Mahony, settled in Armidale. He was consecrated as bishop in 1871 at the same time as the commissioning of the cathedral. It was dedicated in 1872 but replaced by the current cathedral in 1912. When Bishop O’Mahony left he was replaced by Bishop Torreggiani who was replaced by Bishop O’Connor in 1904.

The new cathedral of St. Mary and St. Joseph was built in Pyrmont stone from Sydney and Armidale polychrome (or multi- coloured) bricks. Such brick work was popular in the 1880s but out of fashion by 1912. Brown, cream and red bricks were used for the cathedral to highlight its architectural features. It is a much larger structure than the Anglican cathedral and dominates the townscape around Central Park. The brickwork was used for quoins, cross banding and other feature work. It was designed in Gothic style by Sherrin and Hennessy in Sydney and constructed by a local builder Frederick Nott. It has a turreted tower with a needle spire on top with louvre windows. It has the original slate roof and fine marble work inside and outside in the form of fine marble statues. The interior is also noted for its fine hammer beam ceiling. The pipe organ was made in 1900 in England and rebuilt here in 1912. Like the Anglicans, the Catholics divided the New England diocese in 1887 when the Diocese of Grafton was established.

Near the cathedral but further along Barney Street is the Merici House which was built as a Catholic School and convent very early in 1882. Angela Merici was the founder of the Ursuline Order of Nuns who began teaching at that school in 1883. The Ursulines arrived from London in 1882 to do missionary work in Armidale. Their order was established in Italy in 1534. The Ursulines in Armidale established their mother house here and sent nuns out to many other communities across NSW and Qld from Armidale. But in Armidale they set up St. Ursulines College from their small origins in Merici House near the Catholic Cathedral. It was erected as a fine two storey house for a local businessman in 1877. He sold it to the Ursuline Order in 1882. St. Ursuline College operated from 1882 until it merged with the Catholic boys’ school, La Salle College (established 1906 by Bishop O’Connor) in 1975. The amalgamated school was renamed O’Connor High School after Bishop O’Connor. O’Connor High School operates on a different site in the city of Armidale to the north east of the town.

Anglican Cathedral and associated buildings.
Bishop Broughton conducted the first Anglican service in Armidale in 1845 with the first church opening in 1850, followed by a parsonage for Rev. Tingcombe who was the first minister arriving in 1846. Armidale was part of the Diocese of Newcastle. Then in 1869 the diocese of Grafton and Armidale was established. The founding Bishop was James Turner from Norfolk, England. His diocese was the size of England! He started with 10 clergy and 21 churches. He appointed John Horbury Hunt to design and oversee the building of a suitable cathedral in Armidale. The foundation stone was laid in 1873 and the cathedral opened in 1875 as St. Peter’s. Hunt designed a relatively small cathedral of brick, his favourite building medium, rather than stone. Turner continued as Bishop until 1893. Before he left the diocese of Armidale he had the Christ Church Cathedral erected in Grafton in 1884 and a new Grafton diocese created. Bishop Turner also used John Horbury Hunt for cathedral that we saw in Grafton. By the time Turner left he had 2 diocese and 58 churches.

The Anglican Cathedral was made of Armidale blue bricks with clay taken from Saumarez station. The vestry was added in 1910 according to Hunt’s design (he died in 1903) and the tower, again according to Hunt’s design in 1936. The cathedral features Gothic arches, a square tower, small pyramids on top of buttresses, moulded bricks for special areas and interesting English bonds and patterns. Uralla granite was used for keystones and the foundations. The Deanery was also designed by Hunt and built of the same Armidale blue bricks in 1891. Hunt was known to make great demands on the brickies as he was a perfectionist and supervised all the intricate brickwork very closely. The result was an outstandingly fine cathedral. Note the band of green tiles above the main door included by Hunt. Note also the fine stained glass windows, and one is a memorial to Bishop Turner’s wife who died in 1879. The cathedral has a fine timber ceiling. Hunt even selected the pulpit and lectern to suit his design. The pulpit has an effigy of St. Peter carved in the sandstone. Some of Hunt’s original plans can be viewed in the Tower Room.

Mansions of Armidale.
Many of the mansions of Armidale were constructed in its economic boom period of the 1890s- 1910 when Hillgrove gold mine was at its peak. There are almost 70 buildings in Armidale on the Register of the National Estate. Some are churches or commercial buildings but most are significant houses, especially on the south hill behind the centre of Armidale. But the beautiful gardens hide many of these mansions from any passersby.
•Bishopscourt, (on the town outskirts of the way to Uralla) was built in 1934 as the home of the Anglican Bishop which it still is. It has acres of lawns and gardens.
•Akaroa, now part of New England Girls School was built in 1896. It has many Queen Anne style features including a rounded section. It is not visible from the road.
•Roseneath in Roseneath Lane is one of the oldest houses in Armidale as it was erected in 1854 as a veranda shaded Victorian house with louvre shuttered French windows to the veranda. Privately owned, in poor condition and with no suitable access for a coach.
•Mallam dates from 1869 as one of the last examples of a steep roofed house with dormer windows in the English style (94 Rusden Street). Mallam was the town’s chemist in the 1870s but was in investor in a flour mill, shops and others houses. He paid £1,200 to erect Mallam House. Note the chimney pots.
•The Armidale School. Notes to be provided later.
•Opawa House is in Mann Street at no 65. It was erected in 1915 and it features, wood, brick, and gables typical of that era.
•Trelawny at 84 Brown Street is fine residence built in 1904. It has a curved wrought iron lace work veranda with a prominent gable.
•Birida built in 1907 is typical of that era and is located at 108 Brown Street on the corner of Marsh Street. Note the slate roofed tower porch.
•The Railway Station. Built in 1882 ready for first train in 1883. Lace work done in the foundry in Uralla.
•Lindon Hall at 146 Mann Street is a late 19th century house from 1890. It has fine wrought iron lace work on the balcony. It is a single storey house.
•Teringa is located at 108 Mann Street. It dates from 1894 and is a typical Italianate style two storey house.
•Uloola at 160 Faulkner Street is another gentleman’s residence dating from 1908. It has an English “air “and depicts the Arts and Crafts movement house features.
•The Turrets is located at 145 Mossman Street. It was built in the 1860s and is known for its turrets.
•Highbury House built in 1910 is sited at 177 Faulkner Street. It has bay windows, a round window, arches etc
•The Arts and Crafts style house called Cotswold is located at 34 Marsh Street. It was built in 1918. It is now part of a motel. Next door is another fine house.
•Eynsford, 109 Jeffery St. Another Tudor revival two storey home from the 1920s. Stucco, lead light windows, with a beautiful garden.

Booloominbah.
This grand house is one of the gems designed by architect John Horbury Hunt who produced a number of buildings in Sydney and the country for the White family. One was even a French inspired castle! Frederick White commissioned this house which as built between 1883-88. But at Booloominbah Hunt used the ideas of the Arts and Crafts movement along with his Canadian heritage which meant he used a lot of wood features. When built Booloominbah was the focus of a 20,000 acres sheep property and it was designed for grand livening. Frederick White almost behaved as the “squire” of Armidale as he was already a wealthy man and had properties in the Hunter Valley as well as New England. Booloominbah was his headquarters,but not his head station. The house is overloaded with features; gables, verandas, leadlight windows, wood panelling, impressive staircases, chimneys, a tower, arches, with an overwhelming asymmetrical façade. The house had grand drawing rooms, billiard room, servant’s quarters, service rooms etc. It had almost 50 rooms when built. It was surrounded by grand gardens to complete the picture of local importance. Below is the great stained glass window of Booloominbah commissioned by Frederick White. It depicts the life of General Gordon and his efforts in Sudan as Governor General of the Sudan. Gordon died during the year long siege of Khartoum in 1885 when he was beheaded by his Muslim nemesis. Frederick White was still an Englishman at heart and he was still committed to the glories of the Empire and this allowed him to relive this glory in his own house!

The house was named from a local Aboriginal word but its appearance was decidedly Canadian and English. Frederick White did not live in the house for long as he died in 1903 (when his nephew Francis White took over as leader of the White family in New England.) But Frederick’s widow lived on in Booloominbah for another thirty years. When she died in 1933 the contents were sold and Booloominbah left vacant until a son-in-law (he had married White’s daughter Kate) bought the house. Thomas Richmond Forster then donated the house to the University of Sydney to encourage them to establish the New England University College which the university did in 1938. The house came with about 180 acres of land and cost Forster around £30,000. Forster was a successful businessman and an Anglican layman and benefactor in Armidale. He had been campaigning for a university in Armidale since 1924. Booloominbah became the main administrative and first teaching area of the university and Forster became one of the leaders of the first University Advisory Council. Forster was also the major shareholder in The Armidale School (TAS.) Since the 1940s the university has restored Booloominbah to its former glory. It remains an iconic building of the former sheep pastoral area of New England.

Saumarez.
Henry Dumaresq from the Channel Islands, Jersey, named Saumarez after a property in Jersey. He squatted on land at Saumarez Ponds in 1834. Dumaresq sent his stockmen up here but always lived himself at Muswellbrook on the Hunter River. Saumarez was his head station in New England and he soon had over 100,000 acres of land under leasehold which included Tilbuster Station upon which the city of Armidale now stands. The runs extended from Uralla to beyond Armidale. In 1856 Dumaresq sold his run on to Henry Thomas. He held the run during the period when the government land acts were trying to break p the big runs and open up the land for closer settlement. Thomas took this opportunity to acquire freehold land on his Saumarez run and soon had 12,000 acres freehold. Thomas built a modest three roomed brick house on the run in the 1850s which is still standing. It is near the six roomed timber cottage that Henry Dumaresq built at Saumarez in the 1830s. In fact Henry Dumaresq had his assigned convicts build the cottage as they did most other early structures on Saumarez. In 1874 the nature of Saumarez property changed as it was sold to Francis White, the second son of James White of Edinglassie at Muswellbrook. Francis White took on a property of 20,000 freehold acres. He had properties in the Hunter, at Armidale, Guyra, in Queensland and the Northern Territory.

In 1886 Francis White was doing well, he had paid off the mortgage on the property and so he decided to build a mansion homestead on Saumarez for his residence. A single storey residence was completed in 1888 by a local Armidale builder. After his Uncle Frederick White of Booloominbah died in 1903 Francis decided he needed to entertain on a grander scale to maintain the White family prominence around Armidale. So whilst his wife and daughters were on a holiday in Europe had had a second storey added to the house in 1905/6. The new storey incorporated many Art Nouveau stylistic features. The White family lived in the house until it was donated to the National Trust in 1984 but they only donated the house. The White family still own the Saumarez property of around 6,000 acres. Saumarez House is surrounded by 5 acres of gardens. The house itself is gabled but with symmetrical facades and verandas. The house is built around a courtyard with one side for the Whites and the other for the servants and services such as the kitchens, laundries, butter rooms etc. The family wing contains two large drawing rooms and an elaborate Edwardian stair case. Front entrances were designed to impress visitors. The Whites used Saumarez for official functions, garden parties, tennis parties etc. The house walls are of Flemish bond brick work. The interior joinery on doors, windows, fireplace surrounds etc is Red Cedar. Native flowers are used on the stained glass work including Flannel flowers, waratah, native Lillies etc. Whites three daughters made much carved wooden work for the house.

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Connected China Gas Assisted Mould Manufacturers Articles

Steven F. Udvar-Hazy Center: Photomontage of main entrance view, such as P-40 Warhawk & F-four Corsair up front, SR-71 Background under in the close to distance, and the Space Shuttle Enterprise beyond

Steven F. Udvar-Hazy Center: Photomontage of main entrance view, such as P-40 Warhawk & F-four Corsair up front, SR-71 Background under in the close to distance, and the Space Shuttle Enterprise beyond

Some cool china two shot mold manufacturer photos:

Steven F. Udvar-Hazy Center: Photomontage of principal entrance view, which includes P-40 Warhawk & F-four Corsair up front, SR-71 Background beneath in the close to distance, and the Space Shuttle Enterprise beyond
china two shot mold manufacturer
Image by Chris Devers
Blogged on ☛ HoloChromaCinePhotoRamaScope‽ as: Bye bye, Miss American Pie.

• • • • •

Quoting Smithsonian National Air and Space Museum | Curtiss P-40E Warhawk (Kittyhawk IA):

No matter whether known as the Warhawk, Tomahawk, or Kittyhawk, the Curtiss P-40 proved to be a profitable, versatile fighter for the duration of the 1st half of World War II. The shark-mouthed Tomahawks that Gen. Claire Chennault’s &quotFlying Tigers&quot flew in China against the Japanese remain amongst the most common airplanes of the war. P-40E pilot Lt. Boyd D. Wagner became the initial American ace of World War II when he shot down six Japanese aircraft in the Philippines in mid-December 1941.

Curtiss-Wright built this airplane as Model 87-A3 and delivered it to Canada as a Kittyhawk I in 1941. It served till 1946 in No. 111 Squadron, Royal Canadian Air Force. U.S. Air Force personnel at Andrews Air Force Base restored it in 1975 to represent an aircraft of the 75th Fighter Squadron, 23rd Fighter Group, 14th Air Force.

Donated by the Exchange Club in Memory of Kellis Forbes.

Manufacturer:
Curtiss Aircraft Business

Date:
1939

Country of Origin:
United States of America

Dimensions:
Overall: 330 x 970cm, 2686kg, 1140cm (10ft 9 15/16in. x 31ft 9 7/8in., 5921.6lb., 37ft 4 13/16in.)

Supplies:
All-metal, semi-monocoque

Physical Description:
Single engine, single seat, fighter aircraft.

• • • • •

Quoting Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

No reconnaissance aircraft in history has operated globally in a lot more hostile airspace or with such complete impunity than the SR-71, the world’s fastest jet-propelled aircraft. The Blackbird’s efficiency and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War.

This Blackbird accrued about two,800 hours of flight time throughout 24 years of active service with the U.S. Air Force. On its last flight, March 6, 1990, Lt. Col. Ed Yielding and Lt. Col. Joseph Vida set a speed record by flying from Los Angeles to Washington, D.C., in 1 hour, 4 minutes, and 20 seconds, averaging three,418 kilometers (2,124 miles) per hour. At the flight’s conclusion, they landed at Washington-Dulles International Airport and turned the airplane over to the Smithsonian.

Transferred from the United States Air Force.

Manufacturer:
Lockheed Aircraft Corporation

Designer:
Clarence L. &quotKelly&quot Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
General: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft five 15/16in. x 107ft 5in. x 55ft 7in. (5.638m x 32.741m x 16.942m)

Materials:
Titanium

Physical Description:
Twin-engine, two-seat, supersonic strategic reconnaissance aircraft airframe constructed largley of titanium and its alloys vertical tail fins are constructed of a composite (laminated plastic-sort material) to reduce radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines feature massive inlet shock cones.

• • • • •

Quoting Smithsonian National Air and Space Museum | Vought F4U-1D Corsair :

By V-J Day, September 2, 1945, Corsair pilots had amassed an 11:1 kill ratio against enemy aircraft. The aircraft’s distinctive inverted gull-wing design and style allowed ground clearance for the large, three-bladed Hamilton Normal Hydromatic propeller, which spanned a lot more than four meters (13 feet). The Pratt and Whitney R-2800 radial engine and Hydromatic propeller was the biggest and 1 of the most effective engine-propeller combinations ever flown on a fighter aircraft.

Charles Lindbergh flew bombing missions in a Corsair with Marine Air Group 31 against Japanese strongholds in the Pacific in 1944. This airplane is painted in the colors and markings of the Corsair Sun Setter, a Marine close-support fighter assigned to the USS Essex in July 1944.

Transferred from the United States Navy.

Manufacturer:
Vought Aircraft Company

Date:
1940

Nation of Origin:
United States of America

Dimensions:
Overall: 460 x 1020cm, 4037kg, 1250cm (15ft 1 1/8in. x 33ft five 9/16in., 8900lb., 41ft 1/8in.)

Components:
All metal with fabric-covered wings behind the primary spar.

Physical Description:
R-2800 radial air-cooled engine with 1,850 horsepower, turned a 3-blade Hamilton Common Hydromatic propeller with solid aluminum blades spanning 13 feet 1 inch wing bent gull-shaped on both sides of the fuselage.

• • • • •

See more pictures of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Space Shuttle Enterprise:

Manufacturer:
Rockwell International Corporation

Country of Origin:
United States of America

Dimensions:
General: 57 ft. tall x 122 ft. lengthy x 78 ft. wing span, 150,000 lb.
(1737.36 x 3718.57 x 2377.44cm, 68039.6kg)

Components:
Aluminum airframe and body with some fiberglass attributes payload bay doors are graphite epoxy composite thermal tiles are simulated (polyurethane foam) except for test samples of actual tiles and thermal blankets.

The first Space Shuttle orbiter, &quotEnterprise,&quot is a full-scale test automobile employed for flights in the atmosphere and tests on the ground it is not equipped for spaceflight. Although the airframe and flight control elements are like these of the Shuttles flown in space, this car has no propulsion method and only simulated thermal tiles because these characteristics were not needed for atmospheric and ground tests. &quotEnterprise&quot was rolled out at Rockwell International’s assembly facility in Palmdale, California, in 1976. In 1977, it entered service for a nine-month-long method-and-landing test flight program. Thereafter it was utilised for vibration tests and fit checks at NASA centers, and it also appeared in the 1983 Paris Air Show and the 1984 World’s Fair in New Orleans. In 1985, NASA transferred &quotEnterprise&quot to the Smithsonian Institution’s National Air and Space Museum.

Transferred from National Aeronautics and Space Administration

Steven F. Udvar-Hazy Center: Northrop P-61C Black Widow
china two shot mold manufacturer
Image by Chris Devers
Examine &amp contrast:

Northrop P-61C Black widow:
* Front view
* Above view

Star Wars ARC-170 Fighter:
* Official page
* Wikia
* Wikipedia
* Toy assessment

I place it to you that they are the Exact same Factor.

* twin engines
* double-cockpit in front
* gunner’s cockpit in back
* broad wing coming out from the middle

• • • • •

See much more photographs of this, and the Wikipedia post.

Details, quoting from Smithsonian National Air and Space Museum: Steven F. Udvar-Hazy | Northrop P-61C Black Widow:

The P-61 Black Widow was the very first U.S. aircraft created to find and destroy enemy aircraft at evening and in negative climate, a feat created possible by the use of on-board radar. The prototype first flew in 1942. P-61 combat operations started just right after D-Day, June six, 1944, when Black Widows flew deep into German airspace, bombing and strafing trains and road targeted traffic. Operations in the Pacific started at about the very same time. By the finish of Planet War II, Black Widows had noticed combat in each theater and had destroyed 127 enemy aircraft and 18 German V-1 buzz bombs.

The Museum’s Black Widow, a P-61C-1-NO, was delivered to the Army Air Forces in July 1945. It participated in cold-weather tests, high-altitude drop tests, and in the National Thunderstorm Project, for which the leading turret was removed to make space for thunderstorm monitoring gear.

Transferred from the United States Air Force.

Manufacturer:
Northrop Aircraft Inc.

Date:
1943

Country of Origin:
United States of America

Dimensions:
General: 450 x 1500cm, 10637kg, 2000cm (14ft 9 3/16in. x 49ft 2 9/16in., 23450.3lb., 65ft 7 3/8in.)

Extended Description:
The P-61 Black Widow was the very first United States aircraft developed from the begin to discover and destroy other aircraft at night and in poor weather. It served in combat for only the final year of Planet War II but flew in the European, Mediterranean, Pacific, and China-Burma-India theaters. Black Widow crews destroyed 127 enemy aircraft and 18 robot V-1 buzz bombs.

Jack Northrop’s large fighter was born for the duration of the dark days of the Battle of Britain and the London Blitz in 1940. British successes against German daylight bombers forced the Luftwaffe (German Air Force) to shift to night bombing. By the time Royal Air Force (RAF) Spitfires could launch, climb out, and then attempt to intercept these raids, the bombers crews had normally dropped their loads and turned for property. An aircraft was required to patrol the skies more than England for up to seven hours during the night, and then follow radar vectors to attack German aircraft ahead of they reached their target. U.S. Army Air Corps officers noted this requirement and decided that America should have a evening fighter if and when it entered the war.

The Army awarded a contract to Northrop on January 30, 1941. The resulting design featured twin tail booms and rudders for stability when the aircraft closed in behind an intruder. It was a massive aircraft with a huge fuel load and two powerful engines. Armament evolved into four 20 mm cannons mounted in the belly firing forward and a powered, remote-controlled turret on leading of the center fuselage equipped with four .50 cal. machine guns. The three-man crew consisted of the pilot, a gunner seated behind him, and a radar observer/gunner at the rear behind the gun turret. Only the pilot could fire the cannons but any of the three could operate the machine guns.

Simultaneously, work was proceeding, at a laboratory run by the Massachusetts Institute of Technologies, to develop the airborne radar set. The Army tested an early design and style in a Douglas B-18 in 1941. The considerably-improved SCR-520 set was ready by early 1942. Meanwhile, Army enthusiasm for the XP-61 created an additional contract on March 10, 1941, for 13 service-test YP-61s. Even prior to these airplanes flew, Northrop received orders for 410 production machines! Northrop test pilot Vance Breeze flew the aircraft on Might 26, 1942. Even though the Black Widow was practically as massive as a medium bomber, it was a accurate fighter. The only prohibited flight maneuvers were outdoors loops, sustained inverted flight, and deliberate spins.

As Northrop sophisticated the design and style toward production, provide issues arose and modifications became needed. The 4-gun top turret was the same sort fitted to the top forward position on the Boeing B-29 Superfortress (see NASM collection) and that bomber had production priority more than the P-61. As a result, several hundred P-61s did not have this turret. These that did seasoned buffeting when the turret was traversed from side to side and a fix took time. By October 1943, the first P-61s were coming off the line. Training began immediately, and the initial night fighters arrived in the European Theater by March 1944. Combat operations started just right after D-Day (June 6) and the Black Widows speedily departed from their original part as defensive interceptors and became aggressors. They flew deep into German airspace, bombing and strafing trains and road targeted traffic and generating travel hard for the enemy by day and at evening.

P-61s arrived in the Pacific Theater at about the identical time as the European Black Widows. For years, the Japanese had operated lone bombers over Allied targets at evening and now U. S. fighters could locate and attack them. Nonetheless, on June 30, 1944, a Mitsubishi BETTY (see NASM collection) became the 1st P-61 kill in the Pacific. Soon, Black Widows controlled the evening skies. On the evening of August 14-15, a P-61 named &quotLady in the Dark&quot by her crew encountered an intruding Nakajima Ki-43 Hayabusa (Peregrine Falcon) OSCAR (see NASM collection) and sooner or later forced it into the sea without having firing a shot. Even though the war was officially over, no a single was certain that all of the Japanese had heard the message and stopped fighting. The American night fighters flew again the next evening and &quotLady in the Dark&quot once again located a target. It was a Nakajima Ki-44 Shoki (Demon) TOJO and the fighters maneuvered wildly as they attempted to gain an advantage. The P-61 crew lost and reacquired the Ki-44 many occasions then ultimately lost it for great and returned to base. The next day ground troops found the wrecked TOJO. In the darkness, Lady in the Dark’s crew had forced the Japanese pilot to fly into the ground, once more with no firing a shot.

With the war over, the Army cancelled further production. Northrop had built 706 aircraft which includes 36 with a highly modified center fuselage. These F-15As (later redesignated RF-61C) mounted a quantity of cameras in the nose and proved in a position reconnaissance platforms. Many of these airplanes participated in the very first excellent aerial photographic survey of the Pacific islands. A few, plus some particular goal P-61s, stayed in active service till 1950.

NASM’s Black Widow is a P-61C-1-NO, U.S. Army Air Forces serial quantity 43-8330. Northrop delivered it to the Army on July 28, 1945. By October 18, this P-61 was flying at Ladd Field, Alaska, in cold weather tests and it remained there until March 30, 1946. This airplane later moved to Pinecastle Air Force Base, Florida, for participation in the National Thunderstorm Project. The project’s goal was to discover much more about thunderstorms and to use this expertise to far better safeguard civil and military airplanes that operated near them. The U. S. Weather Bureau and the National Advisory Committee for Aeronautics (NACA) undertook the study with cooperation from the Army Air Forces and Navy. With its radar and specific flight characteristics, the P-61 was capable of locating the most turbulent regions of a storm, penetrating them, and returning crew and instruments intact for detailed study.

Pinecastle personnel removed the guns and turret from 43-8330 in July 1946 to make area for new equipment. In September, the aircraft moved to Clinton County Army Air Base, Ohio, exactly where it remained until January 1948. The Air Force then assigned the aircraft to the Flight Test Division at Wright-Patterson Air Force Base, Ohio. Soon after declaring the airplane surplus in 1950, the Air Force stored it at Park Ridge, Illinois, on October three along with essential aircraft destined for the National Air Museum.

But 43-8830 was not accomplished flying. NACA asked the Smithsonian to lend them the aircraft for use in an additional specific system. The committee wanted to investigate how aerodynamic shapes behaved when dropped from higher altitude. The Black Widow arrived at the Ames Aeronautical Laboratory, Naval Air Station Moffett Field, California, on February 14, 1951. NACA returned the aircraft and delivered it to the Smithsonian at Andrews Air Force Base, Maryland, on August ten, 1954. When the engines shut down for the last time, this P-61 had accumulated only 530 total flight hours. Smithsonian personnel trucked it to the Paul Garber Facility in Suitland, Maryland. In 2006, the aircraft was preserved and assembled at the Udvar-Hazy Center. The three different paint schemes from its past service life have been revealed by cautiously removing person layers of paint.

The most Amazing Moulds are Mould Style China

The most Amazing Moulds are Mould Style China

It is a truth that any very good top quality item comes from mould design and style competence and this is the remedy to booming mould producing market. Mould Design China moulds are the highest good quality mould designs that you can ever get in the universe. This is due to the fact that these firms invest in technologies as well as people to make certain that their designs conform to the customers’ maximum expectations in Mould Style China.
A lot of design and improvement has been carried out by Mould Design China businesses permitting them to engineer, create and analyze items for assembly as nicely as moulding. When plastic engineering is applied to element style, it brings to life the customer’s perception. All you are necessary to do is pay a visit to a Mould Design China organization with an concept of the function and look of your element. Alternatively, you can deliver a comprehensive style or an incomplete style and the team of competent engineers will do their greatest towards turning your ideas into a definite, functioning piece.

Mould Design China companies are conversant with the mould industry, and their engineers apply their experience of the efficiency and the properties of moulds to pinpoint any hitch regions well in advance. In performing this, they are in a position to get rid of any possible hurdle with assembly, tooling as nicely as production. They typically take into consideration the facts about texture, material selection, the environment, decorating and packaging of the final make to conform to the final style in Mould Design and style China.
Mould Design China businesses offer a number of solutions which incorporate and not restricted to components application engineering, item style, manufacturing and design and style, mould flow evaluation, mould design and style both 2D and 3D, reverse engineering, preliminary style, pricing, evaluation, material selection, surface modeling, procurement, communication with their customer’s engineering team, amongst several other solutions.
At Mould Style China, they make sure that a mould flow evaluation as effectively as DFM study is carried out for every single portion they manufacture. This approach is carried out to assistance as well as enhance the structure design of the moulds. Here you are assured of the of quality workmanship coupled with superior technologies equipment.
Come to Mould Style China these days for exactly where a mixture of the superior resources is made accessible to you. Solution improvement systems and system management are created variable sufficient to fulfill the desires of your specific needs, which can help your worker or molder to save time as properly as funds.

Find a lot more info relating to China prototyping, and Shenzhen factories here.

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China Mould Manufacturer Can Provide Best Injection Molding Service

China Mould Manufacturer Can Provide Best Injection Molding Service

There are numerous major choices, which can offer you with the greatest china mould manufacturer services. It can also deal with greatest molding technique.

Plastic molding can be defined as a procedure, which can be help in shaping plastic, in its requisite fold. In addition, for the far better shape, you might want to take support of rigid mold or frame. This approach can also be utilized in order to deal with the objective creations, associated with the different shapes and sizes. Moreover, the products comprise of both hugely and straightforward designs. On the other hand, some companies can even supply complex styles, to match the growing demands of the consumers.

Checking on the procedure
For the main step, you want to go through the plates of sheets, exactly where the liquid material will be placed. Higher melting point is utilised in order to deal with the appropriate melting the plastic or other raw supplies. Right after placing the liquid in the structure, higher stress is incorporated from outside, for availing the correct shape of the dice. Following a mold is cooled down completely, you can remove the molded parts and use for the final manufacturing solutions. Nevertheless, you want to establish the material’s amount along with minimum energy requirement, connected with the heated melting point.

Underlying idea offered
When you are hunting for the greatest china mould manufacturer, you are most likely to get hold of the correct underlying idea, connected with plastic molding. The main aim is to take a appear at the dice very first, to make exact shape, as per the requirements. In order to match up with the developing demands of consumers, there are distinct sorts of molding techniques, utilised. Some of those are injection molding, rotational molding, compression and blow molding structures.

Much more on injection molding
Anytime the major region relates with injection molding service, you are in urgent require of the mold cavity. Right after cooling down the solution, the mold can be removed from this spot, with ease. This procedure of plastic mould china is primarily linked with the prototyping or mass production service, of the related products. The 1st use of this process can be noticed in the year 1930s. From that time onwards, numerous advancements make this item a leading decision for all. This technique can be utilized for manufacturing a variety of objects, like bottle caps, utensils for the kitchen, cell phone stands and much more.

Other alternative offered
Apart from injection molding, you can also attempt and go for blow molding service. This is much more like injecting hot liquid plastic, from the barrel and into a molten tube. The liquid portion is poured in a vertical manner to avoid any hazardous accident. Often make it a point to take help of reputable professionals, as they are associated with this field, for fairly some time now. They can offer the correct service, available within cost-effective rates, for the betterment of the customers.

This write-up is written by Jacob Williams on behalf of HQMOULD. His knowledge in plastic moulding business has seen him contribute to and write several articles on topics like China Mould Manufacturer, Plastic Pallet Mould, Custom Plastic Injection Molding, House Appliance Mould and Plastic Mould China and so on.

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Latest China Plastic Tooling Maker News

Latest China Plastic Tooling Maker News

MakerBay in South China Morning Post cover
china plastic tooling maker
Image by cesarharada.com
Credits Christine Yeh
www.scmp.com/lifestyle/article/1901185/hong-kongs-makerba…

Cesar Harada , founder of MakerBay, with &quotProtei&quot, a revolutionary shape-shifting sailing robot utilised to explore and shield the ocean with Open Source Technologies.
It took inventors Cesar Harada and Shawn Frayne just a couple of days to generate their latest solution – an low-cost children’s creating toy consisting of colourful plastic rods with magnetised ends.

Each men’s core expertise lies elsewhere: Harada designs flexible robotic boats that can be employed on environmental missions Frayne launched a micro-wind device company and went on to run Looking Glass, a start-up making 3D displays.

Their collaboration came about due to the fact each are element of MakerBay, the shared production space Harada set up a tiny a lot more than a year ago in Yau Tong, where hobbyists and inventors alike can gather to tinker, build, invent – and discover from every other.

Cesar Harada, founder of MakerBay in Yau Tong. Photo: David Wong
Cesar Harada, founder of MakerBay in Yau Tong. Photo: David Wong

“The concept is a space like this exactly where collaboration happens organically and we can invent one thing rapidly. [Creating one thing] does not have to be a very lengthy journey. If you are in the correct place, with the appropriate individuals and a lot of tools, and you construct a network that supports these men and women, then the journey can be a lot more quickly,” Harada says.

Getting a maker adjustments the perception of the world. You don’t feel limited. You really feel that the planet can be changedCESAR HARADA
“We wanted to make a toy for youngsters with no cash, with out space, and a single that we can make really quickly. And so we made a drawing, found some straws in the kitchen and some magnets in the office and we place them together. We ordered more components from Taobao next day and in 48 hours we had the prototype.”

The maker movement, which former Wired magazine editor Chris Anderson described as “the internet generation generating physical things rather than just pixels on screens”, is a nascent a single in Hong Kong.

Dim Sum Labs in Sheung Wan, the 1st hacker space in the city, has been joined only by MakerHive, a tiny co-working space in Kennedy Town, and Harada’s MakerBay, which occupies a 6,500 sq ft space in an industrial constructing and gives tools from screwdrivers and soldering irons to laser cutters and 3D printers.

Tools at MakerBay positioned in an industrial building in Yau Tong. Photo: David Wong
Tools at MakerBay positioned in an industrial creating in Yau Tong. Photo: David Wong

But they bring with each other diverse talents. MakerBay has attracted hobbyists such as Andrew Pearce, a frequent traveller employing his remain in Hong Kong to generate his dream surfboard, as nicely as companies such as Frayne’s Looking Glass.

British ecologist and MakerBay member Andrew Pearce in the MakerBay workshop. Photo: David Wong
British ecologist and MakerBay member Andrew Pearce in the MakerBay workshop. Photo: David Wong

Originally based in Kwun Tong, the organization moved to MakerBay shortly right after it opened.

Alvin Lee Shiu-pong, an engineer at Seeking Glass, says he and his colleagues discover the co-functioning platform a great spot for building new products.

“We can meet a lot of like-minded folks and share our suggestions. The workshop is genuinely handy. Possessing our own tool lab would call for a big investment it’s significantly less costly if we can share the tools.”

Lee says the “volumetric” displays they specialise in would be beneficial for the medical world and beyond.

“Instead of dissecting bodies or hunting at 2D pictures from books, students can use a volumetric display to find out about human bodies,” he says, gesturing towards a transparent brick inked with a detailed 3D display of the structures inside a skull.

“All we want is to method the 3D info we’ve obtained [to kind the display] and assign colours according to the distinct densities identified – a greater density would indicate bone and decrease ones can be blood, flesh or tendon,” he explains.

The exact same method could be applied to find out about the structures of insects or even micro-organisms, adds Lee, whose team is refining the next big issue from Searching Glass – a cube which can display LED sequences based on code that a user has written.

British ecologistPearce shares his enthusiasm for the hacker space. Tired of paying hefty airline charges to ship his surfboards and of acquiring boards that do not meet his preferences, he decided to make his own. He has been producing very good use of the tools at MakerBay and selecting up skills at its workshops to experiment with various supplies and approaches of generating surfboards.

“It’s just a good way of studying things,” says Pearce. “It’s the first time I tried to make one thing. Right here, I’ve figured out how to make designs in 3D and make them with the laser cutter. I’ve done an induction workshop on woodworking, also. And if I managed somehow to get this new approach of creating down then I guess it can be a saleable concept.

“I do have a mini Simmons [surfboard] but I can not take it with me because of all the charges for the airline. You’ve got this limit on the MTR as effectively, which is even smaller – you can’t even take something as higher as your self. That’s why I have to design and style something that slots collectively, which is tough.”

L3D Cube.
L3D Cube.

Pearce might have picked up a handful of tips at the Maker Faire Hong Kong in November, when veteran model maker Chung King-yang showed a foldable canoe created from plastic foam and epoxy resin.

The two-day occasion, which drew entries from far more than 300 person makers and schools, was organised by Dr Choy Sze-tsan.

An assistant professor in the college of style at Polytechnic University, Choy previously sponsored a mini occasion run by the Hong Kong Makers’ Club. But following 3 years, he decided it was time to turn the faire into a larger event and involve more schools.

Harada presented his building toy at the event and the optimistic feedback has encouraged him to place it on the market place soon. As may well be anticipated, Dim Sum Labs was also present and ran soldering workshops.

Hong Kong traditionally is far more service- and finance-oriented. Men and women here are much less about creating items. They’re much more about transactionsJASON HSU
Visitors got the opportunity to test-drive underwater robots produced by German Swiss International School, get their hands on diverse maker products and, a lot more importantly, be inspired.

Although traditional fairs tend to be places to sell factors, Maker Faires are all about nurturing creativity and sharing of understanding, Choy says.

At its heart, design covers the broader intention to recognize issues and come up with solutions to improve our globe, which has a lot to do with the maker culture, he adds it’s not basically about enhancing aesthetics.

So even though some men and women may consider products featured at the show to be useless stuff, the tips could be the genesis of some thing far larger.

“A effective invention comes not overnight, but after tonnes of experimentations. At the Maker Faire, people can see so many various possibilities of solving problems creatively, it’s impossible for them not to get inspired,” Choy says.

“The maker culture is a excellent catalyst for folks to reconnect back to our physical world and discover by way of failures and trial and error. By way of producing and the uncertainties that arise from the method, we venture into the unknown. And if there’re glitches, it is OK since they keep us trying even harder.”

Harada agrees: “Everyone in their heart has the wish to do anything fascinating with their life and if you only perform on a laptop, there’re some limitations. But once you start off to make anything, you can create an object or adjust the environment.

“Being a maker alterations the perception of the planet. You don’t feel restricted. You feel that the globe can be changed and that’s true for almost everything from objects to buildings to politics.”

Some enthusiasts view the maker movement as holding the seeds to a third industrial revolution. Jason Hsu Yu-jen, founder of Taiwan’s MakerBar, goes so far as to say that our future may lie in the maker culture.Navigating a power drill kart produced by Wheel Thing Makers.
Navigating a power drill kart produced by Wheel Thing Makers.

“MakerBar is more than just a co-functioning space. It has evolved to become a international platform,” says Hsu, who was in Hong Kong last month to speak at a symposium organised by the Hong Kong Federation of Design Associations.

“Most people believe about makers as a company model. That’s incorrect. The maker culture is not just about [utilizing] 3D printing or laser cutters. [Being a] maker is a mindset. It’s a way to resolve problems creatively.

“What you see as the maker movement nowadays is what web or application was back in the early ’80s when Steve Jobs very first launched the Macintosh individual computers. In the future, simply because of de-monetisation and democratisation of technologies, the price for technology would be almost free of charge and you need to have to use your service to make income, not with the machine.

“The maker culture is important for its social engineering effect. It could be a new tool to adjust society, particularly in the establishing planet. In the countryside or farm communities in remote China, makers could be used as a hub to modify villagers’ life. It will alter villagers’ life the way e-commerce will modify China. That is my vision.”

Jason Hsu, of MakerBar Taipei. Photo: Jonathan Wong
Jason Hsu, of MakerBar Taipei. Photo: Jonathan Wong

Nevertheless, compared to the mushrooming maker spaces in Taiwan and Shenzhen, the movement in Hong Kong clearly has a lengthy way to go.

This lag is due to the fact “Hong Kong traditionally is a lot more service- and finance-oriented. Individuals here are significantly less about producing issues. They’re far more about transactions,” Hsu says.

The perception of creating as a non-profit activity is certainly a element in Hongkongers’ lack of involvement, Choy concedes. “But in reality, besides cultural and intellectual elements, there can be economic value,” he says. “Take Japan’s Maywa Denki, for instance. Their quirky musical inventions which they execute well-known shows with are their supply of revenue.”

MakerBay’s Harada says an additional explanation why the maker culture has been so slow to develop in the city is due to the fact “the mentality of Hong Kong has been educated too significantly towards competitors and not towards collaboration”.

“They have been trying more to take advantage of every other rather of helping every single other. This has to alter,” he says.

“In Silicon Valley this culture of maker space, sharing and superb innovation has been around for 15 years and this is why Silicon Valley is Silicon Valley. Folks young and old have to open their minds, be prepared to experiment and share the sources alternatively of maintaining issues to themselves.”