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Steven F. Udvar-Hazy Center: SR-71 Blackbird (tail view)
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Image by Chris Devers
See more photos of this, and the Wikipedia article.

Details, quoting from Smithsonian National Air and Space Museum | Lockheed SR-71 Blackbird:

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

This Blackbird accrued about 2,800 hours of flight time during 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 3,418 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. "Kelly" Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
Overall: 18ft 5 15/16in. x 55ft 7in. x 107ft 5in., 169998.5lb. (5.638m x 16.942m x 32.741m, 77110.8kg)
Other: 18ft 5 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-type material) to reduce radar cross-section; Pratt and Whitney J58 (JT11D-20B) turbojet engines feature large inlet shock cones.

Long Description:
No reconnaissance aircraft in history has operated in more hostile airspace or with such complete impunity than the SR-71 Blackbird. It is the fastest aircraft propelled by air-breathing engines. The Blackbird’s performance and operational achievements placed it at the pinnacle of aviation technology developments during the Cold War. The airplane was conceived when tensions with communist Eastern Europe reached levels approaching a full-blown crisis in the mid-1950s. U.S. military commanders desperately needed accurate assessments of Soviet worldwide military deployments, particularly near the Iron Curtain. Lockheed Aircraft Corporation’s subsonic U-2 (see NASM collection) reconnaissance aircraft was an able platform but the U. S. Air Force recognized that this relatively slow aircraft was already vulnerable to Soviet interceptors. They also understood that the rapid development of surface-to-air missile systems could put U-2 pilots at grave risk. The danger proved reality when a U-2 was shot down by a surface to air missile over the Soviet Union in 1960.

Lockheed’s first proposal for a new high speed, high altitude, reconnaissance aircraft, to be capable of avoiding interceptors and missiles, centered on a design propelled by liquid hydrogen. This proved to be impracticable because of considerable fuel consumption. Lockheed then reconfigured the design for conventional fuels. This was feasible and the Central Intelligence Agency (CIA), already flying the Lockheed U-2, issued a production contract for an aircraft designated the A-12. Lockheed’s clandestine ‘Skunk Works’ division (headed by the gifted design engineer Clarence L. "Kelly" Johnson) designed the A-12 to cruise at Mach 3.2 and fly well above 18,288 m (60,000 feet). To meet these challenging requirements, Lockheed engineers overcame many daunting technical challenges. Flying more than three times the speed of sound generates 316° C (600° F) temperatures on external aircraft surfaces, which are enough to melt conventional aluminum airframes. The design team chose to make the jet’s external skin of titanium alloy to which shielded the internal aluminum airframe. Two conventional, but very powerful, afterburning turbine engines propelled this remarkable aircraft. These power plants had to operate across a huge speed envelope in flight, from a takeoff speed of 334 kph (207 mph) to more than 3,540 kph (2,200 mph). To prevent supersonic shock waves from moving inside the engine intake causing flameouts, Johnson’s team had to design a complex air intake and bypass system for the engines.

Skunk Works engineers also optimized the A-12 cross-section design to exhibit a low radar profile. Lockheed hoped to achieve this by carefully shaping the airframe to reflect as little transmitted radar energy (radio waves) as possible, and by application of special paint designed to absorb, rather than reflect, those waves. This treatment became one of the first applications of stealth technology, but it never completely met the design goals.

Test pilot Lou Schalk flew the single-seat A-12 on April 24, 1962, after he became airborne accidentally during high-speed taxi trials. The airplane showed great promise but it needed considerable technical refinement before the CIA could fly the first operational sortie on May 31, 1967 – a surveillance flight over North Vietnam. A-12s, flown by CIA pilots, operated as part of the Air Force’s 1129th Special Activities Squadron under the "Oxcart" program. While Lockheed continued to refine the A-12, the U. S. Air Force ordered an interceptor version of the aircraft designated the YF-12A. The Skunk Works, however, proposed a "specific mission" version configured to conduct post-nuclear strike reconnaissance. This system evolved into the USAF’s familiar SR-71.

Lockheed built fifteen A-12s, including a special two-seat trainer version. Two A-12s were modified to carry a special reconnaissance drone, designated D-21. The modified A-12s were redesignated M-21s. These were designed to take off with the D-21 drone, powered by a Marquart ramjet engine mounted on a pylon between the rudders. The M-21 then hauled the drone aloft and launched it at speeds high enough to ignite the drone’s ramjet motor. Lockheed also built three YF-12As but this type never went into production. Two of the YF-12As crashed during testing. Only one survives and is on display at the USAF Museum in Dayton, Ohio. The aft section of one of the "written off" YF-12As which was later used along with an SR-71A static test airframe to manufacture the sole SR-71C trainer. One SR-71 was lent to NASA and designated YF-12C. Including the SR-71C and two SR-71B pilot trainers, Lockheed constructed thirty-two Blackbirds. The first SR-71 flew on December 22, 1964. Because of extreme operational costs, military strategists decided that the more capable USAF SR-71s should replace the CIA’s A-12s. These were retired in 1968 after only one year of operational missions, mostly over southeast Asia. The Air Force’s 1st Strategic Reconnaissance Squadron (part of the 9th Strategic Reconnaissance Wing) took over the missions, flying the SR-71 beginning in the spring of 1968.

After the Air Force began to operate the SR-71, it acquired the official name Blackbird– for the special black paint that covered the airplane. This paint was formulated to absorb radar signals, to radiate some of the tremendous airframe heat generated by air friction, and to camouflage the aircraft against the dark sky at high altitudes.

Experience gained from the A-12 program convinced the Air Force that flying the SR-71 safely required two crew members, a pilot and a Reconnaissance Systems Officer (RSO). The RSO operated with the wide array of monitoring and defensive systems installed on the airplane. This equipment included a sophisticated Electronic Counter Measures (ECM) system that could jam most acquisition and targeting radar. In addition to an array of advanced, high-resolution cameras, the aircraft could also carry equipment designed to record the strength, frequency, and wavelength of signals emitted by communications and sensor devices such as radar. The SR-71 was designed to fly deep into hostile territory, avoiding interception with its tremendous speed and high altitude. It could operate safely at a maximum speed of Mach 3.3 at an altitude more than sixteen miles, or 25,908 m (85,000 ft), above the earth. The crew had to wear pressure suits similar to those worn by astronauts. These suits were required to protect the crew in the event of sudden cabin pressure loss while at operating altitudes.

To climb and cruise at supersonic speeds, the Blackbird’s Pratt & Whitney J-58 engines were designed to operate continuously in afterburner. While this would appear to dictate high fuel flows, the Blackbird actually achieved its best "gas mileage," in terms of air nautical miles per pound of fuel burned, during the Mach 3+ cruise. A typical Blackbird reconnaissance flight might require several aerial refueling operations from an airborne tanker. Each time the SR-71 refueled, the crew had to descend to the tanker’s altitude, usually about 6,000 m to 9,000 m (20,000 to 30,000 ft), and slow the airplane to subsonic speeds. As velocity decreased, so did frictional heat. This cooling effect caused the aircraft’s skin panels to shrink considerably, and those covering the fuel tanks contracted so much that fuel leaked, forming a distinctive vapor trail as the tanker topped off the Blackbird. As soon as the tanks were filled, the jet’s crew disconnected from the tanker, relit the afterburners, and again climbed to high altitude.

Air Force pilots flew the SR-71 from Kadena AB, Japan, throughout its operational career but other bases hosted Blackbird operations, too. The 9th SRW occasionally deployed from Beale AFB, California, to other locations to carryout operational missions. Cuban missions were flown directly from Beale. The SR-71 did not begin to operate in Europe until 1974, and then only temporarily. In 1982, when the U.S. Air Force based two aircraft at Royal Air Force Base Mildenhall to fly monitoring mission in Eastern Europe.

When the SR-71 became operational, orbiting reconnaissance satellites had already replaced manned aircraft to gather intelligence from sites deep within Soviet territory. Satellites could not cover every geopolitical hotspot so the Blackbird remained a vital tool for global intelligence gathering. On many occasions, pilots and RSOs flying the SR-71 provided information that proved vital in formulating successful U. S. foreign policy. Blackbird crews provided important intelligence about the 1973 Yom Kippur War, the Israeli invasion of Lebanon and its aftermath, and pre- and post-strike imagery of the 1986 raid conducted by American air forces on Libya. In 1987, Kadena-based SR-71 crews flew a number of missions over the Persian Gulf, revealing Iranian Silkworm missile batteries that threatened commercial shipping and American escort vessels.

As the performance of space-based surveillance systems grew, along with the effectiveness of ground-based air defense networks, the Air Force started to lose enthusiasm for the expensive program and the 9th SRW ceased SR-71 operations in January 1990. Despite protests by military leaders, Congress revived the program in 1995. Continued wrangling over operating budgets, however, soon led to final termination. The National Aeronautics and Space Administration retained two SR-71As and the one SR-71B for high-speed research projects and flew these airplanes until 1999.

On March 6, 1990, the service career of one Lockheed SR-71A Blackbird ended with a record-setting flight. This special airplane bore Air Force serial number 64-17972. Lt. Col. Ed Yeilding and his RSO, Lieutenant Colonel Joseph Vida, flew this aircraft from Los Angeles to Washington D.C. in 1 hour, 4 minutes, and 20 seconds, averaging a speed of 3,418 kph (2,124 mph). At the conclusion of the flight, ‘972 landed at Dulles International Airport and taxied into the custody of the Smithsonian’s National Air and Space Museum. At that time, Lt. Col. Vida had logged 1,392.7 hours of flight time in Blackbirds, more than that of any other crewman.

This particular SR-71 was also flown by Tom Alison, a former National Air and Space Museum’s Chief of Collections Management. Flying with Detachment 1 at Kadena Air Force Base, Okinawa, Alison logged more than a dozen ‘972 operational sorties. The aircraft spent twenty-four years in active Air Force service and accrued a total of 2,801.1 hours of flight time.

Wingspan: 55’7"
Length: 107’5"
Height: 18’6"
Weight: 170,000 Lbs

Reference and Further Reading:

Crickmore, Paul F. Lockheed SR-71: The Secret Missions Exposed. Oxford: Osprey Publishing, 1996.

Francillon, Rene J. Lockheed Aircraft Since 1913. Annapolis, Md.: Naval Institute Press, 1987.

Johnson, Clarence L. Kelly: More Than My Share of It All. Washington D.C.: Smithsonian Institution Press, 1985.

Miller, Jay. Lockheed Martin’s Skunk Works. Leicester, U.K.: Midland Counties Publishing Ltd., 1995.

Lockheed SR-71 Blackbird curatorial file, Aeronautics Division, National Air and Space Museum.

DAD, 11-11-01

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Steven F. Udvar-Hazy Center: B-29 Superfortress “Enola Gay”
china assembly gear injection parts
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress "Enola Gay":

Boeing’s B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the first bomber to house its crew in pressurized compartments. Although designed to fight in the European theater, the B-29 found its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.

On August 6, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on display 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 Great Artiste, flew as an observation aircraft on both 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:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)

Materials:
Polished overall aluminum finish

Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin; 509th Composite Group markings painted in black; "Enola Gay" in black, block letters on lower left nose.

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CPR / My Neighbour to the West
two shots mould china
Image by bill barber
From my set entitled “Our Home, Streetsville”
www.flickr.com/photos/21861018@N00/sets/72157600265395738/
In my collection entitled “Places”
www.flickr.com/photos/21861018@N00/collections/7215760074…
In my photostream
www.flickr.com/photos/21861018@N00/

I’ve always lived close to railway lines. When I was growing up in Orangeville, Ontario, I lived near the main station. Both the Canadian National Railway (CNR) and the Canadian Pacific Railway (CPR) passed through town. When my sister and I moved to a fifty acre farm in Dixie, Ontario (near Toronto) in 1960, the CPR bisected our land.

For the twenty-two years Karen and I have lived at our current address in Streetsville, Ontario, the CPR has been our neighbour across the back fence. People ask us, “Don’t the trains bother you?” We answer that we don’t even hear them.

We sit on the deck and view a lot of interesting stuff go by. One day I watched a trainload of tanks pass. Didn’t know Canada had so many tanks. We also see intriguing graffiti on the sides of tankers and boxcars. And there are cars from all over the U.S. and Canada.

This is the first shot of the trains I have taken from the deck, but there will be more. It’s best to take such pictures after the leaves have dropped, since it’s hard to see the trains through the summer foliage.

Reproduced from Wikipedia, the free encyclopedia
en.wikipedia.org/wiki/Canadian_Pacific_Railway
The Canadian Pacific Railway (CPR; AAR reporting marks CP, CPAA, CPI), known as CP Rail between 1968 and 1996, is a Canadian Class I railway operated by Canadian Pacific Railway Limited. Its rail network stretches from Vancouver to Montreal, and also serves major cities in the United States such as Minneapolis, Chicago, and New York City. Its headquarters are in Calgary, Alberta.

The railway was originally built between eastern Canada and British Columbia between 1881 and 1885 (connecting with Ottawa Valley and Georgian Bay area lines built earlier), fulfilling a promise extended to British Columbia when it entered Confederation in 1871. It was Canada’s first transcontinental railway. Now primarily a freight railway, the CPR was for decades the only practical means of long distance passenger transport in most regions of Canada, and was instrumental in the settlement and development of Western Canada. The CP company became one of the largest and most powerful in Canada, a position it held as late as 1975.[1] Its primary passenger services were eliminated in 1986 after being assumed by VIA Rail Canada in 1978. A beaver was chosen as the railway’s logo because it is one of the national symbols of Canada and represents the hardworking character of the company. The object of both praise and condemnation for over 120 years, the CPR remains an indisputable icon of Canadian nationalism.

The Canadian Pacific Railway is a public company with over 15,000 employees and market capitalization of 7 billion USD in 2008.[2]

Canada’s very existence depended on the successful completion of the major civil engineering project, the creation of a transcontinental railway. Creation of the Canadian Pacific Railway was a task originally undertaken for a combination of reasons by the Conservative government of Prime Minister Sir John A. Macdonald. British Columbia had insisted upon a transport link to the east as a condition for joining the Confederation of Canada (initially requesting a wagon road). The government however, proposed to build a railway linking the Pacific province to the eastern provinces within ten years of July 20, 1871. Macdonald also saw it as essential to the creation of a unified Canadian nation that would stretch across the continent. Moreover, manufacturing interests in Quebec and Ontario desired access to sources of raw materials and markets in Canada’s west.

The first obstacle to its construction was economic. The logical route went through the American Midwest and the city of Chicago, Illinois. In addition to the obvious difficulty of building a railroad through the Canadian Rockies, an entirely Canadian route would require crossing 1,600 km (1,000 miles) of rugged terrain of the barren Canadian Shield and muskeg of Northern Ontario. To ensure this routing, the government offered huge incentives including vast grants of land in Western Canada.

In 1872, Sir John A. Macdonald and other high-ranking politicians, swayed by bribes in the so-called Pacific Scandal, granted federal contracts to Hugh Allan’s "Canada Pacific Railway Company" (which was unrelated to the current company) and to the Inter-Ocean Railway Company. Because of this scandal, the Conservative party was removed from office in 1873. The new Liberal prime minister, Alexander Mackenzie, began construction of segments of the railway as a public enterprise under the supervision of the Department of Public Works. The Thunder Bay branch linking Lake Superior to Winnipeg was commenced in 1875. Progress was discouragingly slow because of the lack of public money. With Sir John A. Macdonald’s return to power on October 16, 1878, a more aggressive construction policy was adopted. Macdonald confirmed that Port Moody would be the terminus of the transcontinental railway, and announced that the railway would follow the Fraser and Thompson rivers between Port Moody and Kamloops. In 1879, the federal government floated bonds in London and called for tenders to construct the 206 km (128 mile) section of the railway from Yale, British Columbia to Savona’s Ferry on Kamloops Lake. The contract was awarded to Andrew Onderdonk, whose men started work on May 15, 1880. After the completion of that section, Onderdonk received contracts to build between Yale and Port Moody, and between Savona’s Ferry and Eagle Pass.

On October 21, 1880, a new syndicate, unrelated to Hugh Allan’s, signed a contract with the Macdonald government. They agreed to build the railway in exchange for ,000,000 (approximately 5,000,000 in modern Canadian dollars) in credit from the Canadian government and a grant of 25,000,000 acres (100,000 km²) of land. The government transferred to the new company those sections of the railway it had constructed under government ownership. The government also defrayed surveying costs and exempted the railway from property taxes for 20 years. The Montreal-based syndicate officially comprised five men: George Stephen, James J. Hill, Duncan McIntyre, Richard B. Angus, and John Stewart Kennedy. Donald A. Smith and Norman Kittson were unofficial silent partners with a significant financial interest. On February 15, 1881, legislation confirming the contract received royal assent, and the Canadian Pacific Railway Company was formally incorporated the next day.

The CPR started its westward expansion from Bonfield, Ontario (previously called Callander Station) where the first spike was driven into a sunken railway tie. Bonfield, Ontario was inducted into Canadian Railway Hall of Fame in 2002 as the CPR First Spike location. That was the point where the Canada Central Railway extension ended. The CCR was owned by Duncan McIntyre who amalgamated it with the CPR and became one of the handful of officers of the newly formed CPR. The CCR started in Brockville and extended to Pembroke. It then followed a westward route along the Ottawa River passing through places like Cobden, Deux-Rivières, and eventually to Mattawa at the confluence of the Mattawa and Ottawa Rivers. It then proceeded cross-country towards its final destination Bonfield (previously called Callander Station).

Duncan McIntyre and his contractor James Worthington piloted the CCR expansion. Worthington continued on as the construction superintendent for the CPR past Bonfield. He remained with the CPR for about a year until he left the company. McIntyre was uncle to John Ferguson who staked out future North Bay after getting assurance from his uncle and Worthington that it would be the divisional and a location of some importance.

It was assumed that the railway would travel through the rich "Fertile Belt" of the North Saskatchewan River valley and cross the Rocky Mountains via the Yellowhead Pass, a route suggested by Sir Sandford Fleming based on a decade of work. However, the CPR quickly discarded this plan in favour of a more southerly route across the arid Palliser’s Triangle in Saskatchewan and through Kicking Horse Pass over the Field Hill. This route was more direct and closer to the American border, making it easier for the CPR to keep American railways from encroaching on the Canadian market. However, this route also had several disadvantages.

One consequence was that the CPR would need to find a route through the Selkirk Mountains, as at the time it was not known whether a route even existed. The job of finding a pass was assigned to a surveyor named Major Albert Bowman Rogers. The CPR promised him a cheque for ,000 and that the pass would be named in his honour. Rogers became obsessed with finding the pass that would immortalize his name. He found the pass on May 29, 1881, and true to its word, the CPR named the pass "Rogers Pass" and gave him the cheque. This however, he at first refused to cash, preferring to frame it, and saying he did not do it for the money. He later agreed to cash it with the promise of an engraved watch.

Another obstacle was that the proposed route crossed land controlled by the Blackfoot First Nation. This difficulty was overcome when a missionary priest, Albert Lacombe, persuaded the Blackfoot chief Crowfoot that construction of the railway was inevitable.

In return for his assent, Crowfoot was famously rewarded with a lifetime pass to ride the CPR. A more lasting consequence of the choice of route was that, unlike the one proposed by Fleming, the land surrounding the railway often proved too arid for successful agriculture. The CPR may have placed too much reliance on a report from naturalist John Macoun, who had crossed the prairies at a time of very high rainfall and had reported that the area was fertile.

The greatest disadvantage of the route was in Kicking Horse Pass. In the first 6 km (3.7 miles) west of the 1,625 metre (5,330 ft) high summit, the Kicking Horse River drops 350 metres (1,150 ft). The steep drop would force the cash-strapped CPR to build a 7 km (4.5 mile) long stretch of track with a very steep 4.5% gradient once it reached the pass in 1884. This was over four times the maximum gradient recommended for railways of this era, and even modern railways rarely exceed a 2% gradient. However, this route was far more direct than one through the Yellowhead Pass, and saved hours for both passengers and freight. This section of track was the CPR’s Big Hill. Safety switches were installed at several points, the speed limit for descending trains was set at 10 km per hour (6 mph), and special locomotives were ordered. Despite these measures, several serious runaways still occurred. CPR officials insisted that this was a temporary expediency, but this state of affairs would last for 25 years until the completion of the Spiral Tunnels in the early 20th century.

In 1881 construction progressed at a pace too slow for the railway’s officials, who in 1882 hired the renowned railway executive William Cornelius Van Horne, to oversee construction with the inducement of a generous salary and the intriguing challenge of handling such a difficult railway project. Van Horne stated that he would have 800 km (500 miles) of main line built in 1882. Floods delayed the start of the construction season, but over 672 km (417 miles) of main line, as well as various sidings and branch lines, were built that year. The Thunder Bay branch (west from Fort William) was completed in June 1882 by the Department of Railways and Canals and turned over to the company in May 1883, permitting all-Canadian lake and rail traffic from eastern Canada to Winnipeg for the first time in Canada’s history. By the end of 1883, the railway had reached the Rocky Mountains, just eight km (5 miles) east of Kicking Horse Pass. The construction seasons of 1884 and 1885 would be spent in the mountains of British Columbia and on the north shore of Lake Superior.

Many thousands of navvies worked on the railway. Many were European immigrants. In British Columbia, the CPR hired workers from China, nicknamed coolies. A navvy received between and .50 per day, but had to pay for his own food, clothing, transportation to the job site, mail, and medical care. After two and a half months of back-breaking labour, they could net as little as . Chinese navvies in British Columbia made only between .75 and .25 a day, not including expenses, leaving barely anything to send home. They did the most dangerous construction jobs, such as working with explosives. The families of the Chinese who were killed received no compensation, or even notification of loss of life. Many of the men who survived did not have enough money to return to their families in China. Many spent years in lonely, sad and often poor conditions. Yet the Chinese were hard working and played a key role in building the western stretch of the railway; even some boys as young as 12 years old served as tea-boys.

By 1883, railway construction was progressing rapidly, but the CPR was in danger of running out of funds. In response, on January 31, 1884, the government passed the Railway Relief Bill, providing a further ,500,000 in loans to the CPR. The bill received royal assent on March 6, 1884.

In March 1885, the North-West Rebellion broke out in the District of Saskatchewan. Van Horne, in Ottawa at the time, suggested to the government that the CPR could transport troops to Qu’Appelle, Assiniboia, in eleven days. Some sections of track were incomplete or had not been used before, but the trip to Winnipeg was made in nine days and the rebellion was quickly put down. Perhaps because the government was grateful for this service, they subsequently re-organized the CPR’s debt and provided a further ,000,000 loan. This money was desperately needed by the CPR. On November 7, 1885 the Last Spike was driven at Craigellachie, British Columbia, making good on the original promise. Four days earlier, the last spike of the Lake Superior section was driven in just west of Jackfish, Ontario. While the railway was completed four years after the original 1881 deadline, it was completed more than five years ahead of the new date of 1891 that Macdonald gave in 1881.

The successful construction of such a massive project, although troubled by delays and scandal, was considered an impressive feat of engineering and political will for a country with such a small population, limited capital, and difficult terrain. It was by far the longest railway ever constructed at the time. It had taken 12,000 men, 5,000 horses, and 300 dog-sled teams to build the railway.

Meanwhile, in Eastern Canada, the CPR had created a network of lines reaching from Quebec City to St. Thomas, Ontario by 1885, and had launched a fleet of Great Lakes ships to link its terminals. The CPR had effected purchases and long-term leases of several railways through an associated railway company, the Ontario and Quebec Railway (O&Q). The O&Q built a line between Perth, Ontario, and Toronto (completed on May 5, 1884) to connect these acquisitions. The CPR obtained a 999-year lease on the O&Q on January 4, 1884. Later, in 1895, it acquired a minority interest in the Toronto, Hamilton and Buffalo Railway, giving it a link to New York and the northeast US.

So many cost-cutting shortcuts were taken in constructing the railway that regular transcontinental service could not start for another seven months while work was done to improve the railway’s condition. However, had these shortcuts not been taken, it is conceivable that the CPR might have had to default financially, leaving the railway unfinished. The first transcontinental passenger train departed from Montreal’s Dalhousie Station, located at Berri Street and Notre Dame Street on June 28, 1886 at 8:00 p.m. and arrived at Port Moody on July 4, 1886 at noon. This train consisted of two baggage cars, a mail car, one second-class coach, two immigrant sleepers, two first-class coaches, two sleeping cars, and a diner.

By that time, however, the CPR had decided to move its western terminus from Port Moody to Gastown, which was renamed "Vancouver" later that year. The first official train destined for Vancouver arrived on May 23, 1887, although the line had already been in use for three months. The CPR quickly became profitable, and all loans from the Federal government were repaid years ahead of time.

In 1888, a branch line was opened between Sudbury and Sault Ste. Marie where the CPR connected with the American railway system and its own steamships. That same year, work was started on a line from London, Ontario to the American border at Windsor, Ontario. That line opened on June 12, 1890.

The CPR also leased the New Brunswick Railway for 999 years and built the International Railway of Maine, connecting Montreal with Saint John, New Brunswick in 1889. The connection with Saint John on the Atlantic coast made the CPR the first truly transcontinental railway company and permitted trans-Atlantic cargo and passenger services to continue year-round when sea ice in the Gulf of St. Lawrence closed the port of Montreal during the winter months.

By 1896, competition with the Great Northern Railway for traffic in southern British Columbia forced the CPR to construct a second line across the province, south of the original line. Van Horne, now president of the CPR, asked for government aid, and the government agreed to provide around .6 million to construct a railway from Lethbridge, Alberta through Crowsnest Pass to the south shore of Kootenay Lake, in exchange for the CPR agreeing to reduce freight rates in perpetuity for key commodities shipped in Western Canada. The controversial Crowsnest Pass Agreement effectively locked the eastbound rate on grain products and westbound rates on certain "settlers’ effects" at the 1897 level. Although temporarily suspended during World War I, it was not until 1983 that the "Crow Rate" was permanently replaced by the Western Grain Transportation Act which allowed for the gradual increase of grain shipping prices. The Crowsnest Pass line opened on June 18, 1899.

Practically speaking, the CPR had built a railway that operated mostly in the wilderness. The usefulness of the Prairies was questionable in the minds of many. The thinking prevailed that the Prairies had great potential. Under the initial contract with the Canadian Government to build the railway, the CPR was granted 25,000,000 acres (100,000 km²). Proving already to be a very resourceful organization, Canadian Pacific began an intense campaign to bring immigrants to Canada.

Canadian Pacific agents operated in many overseas locations. Immigrants were often sold a package that included passage on a CP ship, travel on a CP train, and land sold by the CP railway. Land was priced at .50 an acre and up. Immigrants paid very little for a seven-day journey to the West. They rode in Colonist cars that had sleeping facilities and a small kitchen at one end of the car. Children were not allowed off the train, lest they wander off and be left behind. The directors of the CPR knew that not only were they creating a nation, but also a long-term source of revenue for their company.

During the first decade of the twentieth century, the CPR continued to build more lines. In 1908 the CPR opened a line connecting Toronto with Sudbury. Previously, westbound traffic originating in southern Ontario took a circuitous route through eastern Ontario.
Several operational improvements were also made to the railway in western Canada. In 1909 the CPR completed two significant engineering accomplishments. The most significant was the replacement of the Big Hill, which had become a major bottleneck in the CPR’s main line, with the Spiral Tunnels, reducing the grade to 2.2% from 4.5%. The Spiral Tunnels opened in August. On November 3, 1909, the Lethbridge Viaduct over the Oldman River valley at Lethbridge, Alberta was opened. It is 1,624 metres (5,327 ft) long and, at its maximum, 96 metres (314 ft) high, making it the longest railway bridge in Canada. In 1916 the CPR replaced its line through Rogers Pass, which was prone to avalanches, with the Connaught Tunnel, an eight km (5 mile) long tunnel under Mount Macdonald that was, at the time of its opening, the longest railway tunnel in the Western Hemisphere.

The CPR acquired several smaller railways via long-term leases in 1912. On January 3, 1912, the CPR acquired the Dominion Atlantic Railway, a railway that ran in western Nova Scotia. This acquisition gave the CPR a connection to Halifax, a significant port on the Atlantic Ocean. The Dominion Atlantic was isolated from the rest of the CPR network and used the CNR to facilitate interchange; the DAR also operated ferry services across the Bay of Fundy for passengers and cargo (but not rail cars) from the port of Digby, Nova Scotia to the CPR at Saint John, New Brunswick. DAR steamships also provided connections for passengers and cargo between Yarmouth, Boston and New York.

On July 1, 1912, the CPR acquired the Esquimalt and Nanaimo Railway, a railway on Vancouver Island that connected to the CPR using a railcar ferry. The CPR also acquired the Quebec Central Railway on December 14, 1912.

During the late 19th century, the railway undertook an ambitious program of hotel construction, building the Château Frontenac in Quebec City, the Royal York Hotel in Toronto, the Banff Springs Hotel, and several other major Canadian landmarks. By then, the CPR had competition from three other transcontinental lines, all of them money-losers. In 1919, these lines were consolidated, along with the track of the old Intercolonial Railway and its spurs, into the government-owned Canadian National Railways.

When World War I broke out in 1914, the CPR devoted resources to the war effort, and managed to stay profitable while its competitors struggled to remain solvent. After the war, the Federal government created Canadian National Railways (CNR, later CN) out of several bankrupt railways that fell into government hands during and after the war. CNR would become the main competitor to the CPR in Canada.

The Great Depression, which lasted from 1929 until 1939, hit many companies heavily. While the CPR was affected, it was not affected to the extent of its rival CNR because it, unlike the CNR, was debt-free. The CPR scaled back on some of its passenger and freight services, and stopped issuing dividends to its shareholders after 1932.

One highlight of the 1930s, both for the railway and for Canada, was the visit of King George VI and Queen Elizabeth to Canada in 1939, the first time that the reigning monarch had visited the country. The CPR and the CNR shared the honours of pulling the royal train across the country, with the CPR undertaking the westbound journey from Quebec City to Vancouver.

Later that year, World War II began. As it had done in World War I, the CPR devoted much of its resources to the war effort. It retooled its Angus Shops in Montreal to produce Valentine tanks, and transported troops and resources across the country. As well, 22 of the CPR’s ships went to warfare, 12 of which were sunk.

After World War II, the transportation industry in Canada changed. Where railways had previously provided almost universal freight and passenger services, cars, trucks, and airplanes started to take traffic away from railways. This naturally helped the CPR’s air and trucking operations, and the railway’s freight operations continued to thrive hauling resource traffic and bulk commodities. However, passenger trains quickly became unprofitable.

During the 1950s, the railway introduced new innovations in passenger service, and in 1955 introduced The Canadian, a new luxury transcontinental train. However, starting in the 1960s the company started to pull out of passenger services, ending services on many of its branch lines. It also discontinued its transcontinental train The Dominion in 1966, and in 1970 unsuccessfully applied to discontinue The Canadian. For the next eight years, it continued to apply to discontinue the service, and service on The Canadian declined markedly. On October 29, 1978, CP Rail transferred its passenger services to VIA Rail, a new federal Crown corporation that is responsible for managing all intercity passenger service formerly handled by both CP Rail and CN. VIA eventually took almost all of its passenger trains, including The Canadian, off CP’s lines.

In 1968, as part of a corporate re-organization, each of the CPR’s major operations, including its rail operations, were organized as separate subsidiaries. The name of the railway was changed to CP Rail, and the parent company changed its name to Canadian Pacific Limited in 1971. Its express, telecommunications, hotel and real estate holdings were spun off, and ownership of all of the companies transferred to Canadian Pacific Investments. The company discarded its beaver logo, adopting the new Multimark logo that could be used for each of its operations.

In 1984 CP Rail commenced construction of the Mount Macdonald Tunnel to augment the Connaught Tunnel under the Selkirk Mountains. The first revenue train passed through the tunnel in 1988. At 14.7 km (9 miles), it is the longest tunnel in the Americas.

During the 1980s, the Soo Line, in which CP Rail still owned a controlling interest, underwent several changes. It acquired the Minneapolis, Northfield and Southern Railway in 1982. Then on February 21, 1985, the Soo Line obtained a controlling interest in the Milwaukee Road, merging it into its system on January 1, 1986. Also in 1980 Canadian Pacific bought out the controlling interests of the Toronto, Hamilton and Buffalo Railway (TH&B) from Conrail and molded it into the Canadian Pacific System, dissolving the TH&B’s name from the books in 1985. In 1987 most of CPR’s trackage in the Great Lakes region, including much of the original Soo Line, were spun off into a new railway, the Wisconsin Central, which was subsequently purchased by CN.

Influenced by the Canada-U.S. Free Trade Agreement of 1989 which liberalized trade between the two nations, the CPR’s expansion continued during the early 1990s: CP Rail gained full control of the Soo Line in 1990, and bought the Delaware and Hudson Railway in 1991. These two acquisitions gave CP Rail routes to the major American cities of Chicago (via the Soo Line) and New York City (via the D&H).

During the next few years CP Rail downsized its route, and several Canadian branch lines were either sold to short lines or abandoned. This included all of its lines east of Montreal, with the routes operating across Maine and New Brunswick to the port of Saint John (operating as the Canadian Atlantic Railway) being sold or abandoned, severing CPR’s transcontinental status (in Canada); the opening of the St. Lawrence Seaway in the late 1950s, coupled with subsidized icebreaking services, made Saint John surplus to CPR’s requirements. During the 1990s, both CP Rail and CN attempted unsuccessfully to buy out the eastern assets of the other, so as to permit further rationalization. As well, it closed divisional and regional offices, drastically reduced white collar staff, and consolidated its Canadian traffic control system in Calgary, Alberta.

Finally, in 1996, reflecting the increased importance of western traffic to the railway, CP Rail moved its head office to Calgary from Montreal and changed its name back to Canadian Pacific Railway. A new subsidiary company, the St. Lawrence and Hudson Railway, was created to operate its money-losing lines in eastern North America, covering Quebec, Southern and Eastern Ontario, trackage rights to Chicago, Illinois, as well as the Delaware and Hudson Railway in the U.S. Northeast. However, the new subsidiary, threatened with being sold off and free to innovate, quickly spun off losing track to short lines, instituted scheduled freight service, and produced an unexpected turn-around in profitability. After only four years, CPR revised its opinion and the StL&H formally re-amalgamated with its parent on January 1, 2001.

In 2001, the CPR’s parent company, Canadian Pacific Limited, spun off its five subsidiaries, including the CPR, into independent companies. Canadian Pacific Railway formally (but, not legally) shortened its name to Canadian Pacific in early 2007, dropping the word "railway" in order to reflect more operational flexibility. Shortly after the name revision, Canadian Pacific announced that it had committed to becoming a major sponsor and logistics provider to the 2010 Olympic Winter Games in Vancouver, British Columbia.

On September 4, 2007, CPR announced it was acquiring the Dakota, Minnesota and Eastern Railroad from its present owners, London-based Electra Private Equity.[3] The transaction is an "end-to-end" consolidation,[4][5] and will give CPR access to U.S. shippers of agricultural products, ethanol, and coal. CPR has stated its intention to use this purchase to gain access to the rich coal fields of Wyoming’s Powder River Basin. The purchase price is US.48 billion, and future payments of over US.0 billion contingent on commencement of construction on the smaller railroad’s Powder River extension and specified volumes of coal shipments from the Powder River basin.[4] The transaction was subject to approval of the U.S. Surface Transportation Board (STB), which was expected to take a year.[4] On October 4, 2007, CPR announced it has completed the financial transactions required for the acquisition, placing the DM&E and IC&E in a voting trust with Richard Hamlin appointed as the trustee. CPR planned to integrate the railroads’ operations once the STB approves the acquisition.[6] The merger was completed as of October 31, 2008.[7]

Post Processing;
Topaz: vibrance
PhotoShop Elements 5: crop, multiply, posterization, ink outlines, sandstone texture

Cool Precision Tooling Made In China images

Cool Precision Tooling Made In China images

A few nice precision tooling made in china images I found:

Steven F. Udvar-Hazy Center: Monnett Moni stunt plane, hanging over the B-29 Enola Gay
precision tooling made in china
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Monnett Moni:

Schoolteacher John Monnett designed the Moni (mo-nee) during the early 1980s, and then coined the term ‘air recreation vehicle’ to describe this airplane. Monnett’s design almost captured all the merits that so many leisure pilots longed to find in one aircraft. The Moni looked great just sitting on the ramp. It performed well, and someone reasonably handy with average shop tools could construct one in their own garage. The design had much going for it, but like so many homebuilt aircraft before and since, a few key engineering lapses in the design, plus problems with the engine and propeller, relegated the Moni to the category of homebuilt aircraft that promise much in design but fail to deliver. Harold C. Weston generously donated his Moni to the National Air and Space Museum in April 1992. Weston built the airplane himself and flew it more than 40 hours.

Gift of Harold C. Weston.

Designer:
John Monnett

Manufacturer:
Harold Weston

Country of Origin:
United States of America

Dimensions:
Wingspan: 8.4 m (27 ft 6 in)
Length: 4.5 m (14 ft 7.5. in)
Height: 0.7 m (28 in)
Weights: Gross, 227 kg (500 lb)
Empty, 118 kg (260 lb)
Engine: KFM 107E, two-cylinder, two-stroke air-cooled, 25 horsepower

Materials:
Overall – Aluminum airframe, semi-monocoque construction.

Physical Description:
Low-wing, vee-tail motorglider, beige with purple, red, and orange trim; single-seat aircraft built from parts sent to builder by mail-order kit; mounted on roadable trailer with wings detached (A19940029000).

Cool China Tooling Making Services images

Cool China Tooling Making Services images

Some cool china tooling making services images:

The once beautiful Eudunda Railway Station in South Australia. The line opened to here in 1878. It is now terribly vandalised. What a pity and a shame on the government. Love the gables and air vents.
china tooling making services
Image by denisbin
Eudunda –German Settlers Town.
The Government extended the Kapunda railway to Eudunda in 1878. This provided a great boost to the newly settled town which had been surveyed in 1872. Eudunda was selected as a town site on the eastern side of the Mt Loft Ranges at 415 metres above sea level, with annual rainfall of 450 mm. To the east of Eudunda the rainfall drops sharply and at 250mm Goyder’s Line is crossed, which depicts the limit of reliable cereal cropping land. Eudunda is often one of the coldest places in SA during the winter months.

The town was established in 1872 a few years prior to the arrival of the railway and it was located near a permanent spring. A town water supply was always essential in the 19th century. Thus the name Eudunda is of aboriginal derivation, Ngadjuri meaning “sheltered water or spring.” This water supply was crucial for the sheep and cattle overlanders coming down from Morgan. In 1872 A & G Neumann erected a flour mill, and in 1874 Mr Appelt opened his general store, having also been appointed Postmaster. The earliest settlers were second generation Lutheran Germans moving on from the Barossa Valley. With the opening of the railway to the Adelaide in 1878 the district thrived. To complement their flour mill Laucke’s established a chaff mill in Kapunda Street and the Eudunda Bakery has been in operation for over 100 years. Eudunda foundries provided employment for many town dwellers, especially the Lutz Farm Machinery Foundry which operated 1892-1905 until it was taken over as Jansen’s Foundry (operated 1905-1951). This foundry survived until recently and was last being run by a Canadian company trading as Emco-Wheaton in the 1980s. It still employed 30 men in the 1980s. A new engineering firm established in Eudunda in 1985 called Buschutz Engineering. The company now employs 20 staff producing hay conditioners, water tanks, silos, fertilizer spreaders and under vine feeders. Edwin Davey the successful flour miller from Angaston later had a second flour mill built in Eudunda to complement his mills in Salisbury, Port Adelaide, Melbourne and Sydney. This second flour mill later became Laucke’s mill. It opened in 1879 and still stands in Kapunda Road.

But before the industry got under way the hotels opened! The first was the Eudunda Hotel which opened in 1873 (what we see today is the 1886 building) and the Royal Hotel which was built as a grand two storey structure in 1878. The first banking service operated from Appelt’s Store in 1877 with the first National Bank (a house type building) being erected in 1888. When it opened, all advertisements for its services were in German. Another indication of the strong German origins of the town was the establishment of the Eudunda Club in 1888 as a club for German workingmen, especially employees of the local foundry. The Club, like German schools etc was closed by Act of parliament in 1917 but it re-opened in 1919. It is still operating in Bruce Street. The Club built the Centenary Hall in 1900 which became the town Institute building when the Town Council took it over.

Police were stationed in Eudunda from 1877 but the first police station was not built until 1883. The town had an early fire station, and like most SA towns the hospital was not opened until the 1920s. It opened in 1922. The first government school opened for classes in 1878 in a large brick and stone Gothic style building. During World War One it became a Higher Primary School offering classes for year 8 and year 9 students. A new building was provided for the town in 1946 and opened as Eudunda Area School (which had been established in 1943) as around half a dozen outlying schools had been closed during the Second World War. From that time children were bussed into Eudunda Area School. At some stage the old 1878 school buildings were demolished. The Lutheran churches provided some early school classes but Emmaus Lutheran Church did not open a formal school until 1904 in Eudunda. The school was closed by state legislation in 1917 during World War One, but it re-opened in 1925 and still operates today with over 200 enrolments. Lutheran church services were mainly conducted in German until the 1920s. The last German language church services in the district were held at Point Pass Lutheran Church in 1939. The outbreak of World War Two finally stopped the German language services.

The history of the churches in Eudunda show the strong Lutheran heritage. Emmaus congregation formed a Lutheran Church in 1871 as the town began. They built a fine church in 1884 at a cost of £1,100. Another Lutheran congregation formed in 1885 and built a second Lutheran Church, St Paul’s in 1893. St Paul’s finally closed in 1979 and a new church for the combined congregations was erected in 1980 called St John’s. The Anglican Church was set up in 1889 when they purchased a former Lutheran Church. It is called St Hilda’s. The Methodist Church was opened in 1885. There is also a Catholic Church in Eudunda.

Commercially the big success of Eudunda was the establishment of Eudunda Farmers’ Cooperative in 1896. It was founded by Thomas Roberts who died at his North Adelaide home in 1922. Roberts used to purchase cut Mallee wood from farmers during the great droughts and depression of the 1890s, especially from the Murray Flats to the east of Eudunda. He formed a cooperative so that farmers could buy their groceries and grain seeds etc in bulk at reduced prices. The society was formed in 1896 with 100 member families based on the railway wood yards at Sutherlands, Bower and Mount Mary etc. Among the many successful businesses in Eudunda was Wiesner and Company timber and hardware merchants. Their impressive warehouse and store still remains in the town. The Wiesner family started a blacksmith and foundry business in Eudunda in 1884 which eventually employed 50 people. In 1905 they sold that business and opened the iron mongers and furniture store in large two storey premises to which they added. It became the largest hardware and furniture store outside of Adelaide. It sold everything from pianos, china, glassware and silver cutlery to iron, nails tools and timber and sewing machines. Johannes Wiesner and his son Adolph ran the business until it was sold in 1951 but they had downsized it in 1945 when they sold they sold part of the warehouse to the Masonic Lodge. Interestingly Adolph married an English girl Mary Cranston and he became a Methodist and his grandson became a Methodist Minister.

When the government extended the railway form Kapunda to Eudunda in 1878 they wanted to push it further across the Murray Flats to Morgan. Why, one might ask? Well, they wanted to tap into the lucrative river trade that came down from New South Wales. Wool was still shipped down the Darling and Murray, and supplies shipped up the river to many NSW properties. By having a railway to Morgan and extensive wharves there, the SA government could transport the wool to Port Adelaide for transhipping to Europe. The rise of Morgan, of course, was to mean the demise of the major shipping ports lower down the Murray such as Milang, Goolwa and Murray Bridge. Because this trade was so important economically the train line crossed the flat through Mount Mary to Morgan in 1878. During the 1890s a quarter of ALL wool exported from SA came from other colonies, mainly NSW but some also came from Queensland and Victoria. Once the South Australian Railways were making a profit (their first profits were in 1907) they also extended the railway from Eudunda to Robertstown in 1914. Passenger services to Robertstown ceased in 1962.

Nice Molds Made In China photos

Nice Molds Made In China photos

A few nice molds made in china images I found:

Image from page 397 of “Decorative textiles; an illustrated book on coverings for furniture, walls and floors, including damasks, brocades and velvets, tapestries, laces, embroideries, chintzes, cretones, drapery and furniture trimmings, wall papers, carp
molds made in china
Image by Internet Archive Book Images
Identifier: decorativetextil00hunt
Title: Decorative textiles; an illustrated book on coverings for furniture, walls and floors, including damasks, brocades and velvets, tapestries, laces, embroideries, chintzes, cretones, drapery and furniture trimmings, wall papers, carpets and rugs, tooled and illuminated leathers
Year: 1918 (1910s)
Authors: Hunter, George Leland, 1867-1927
Subjects: Textile fabrics Textile design Lace and lace making Embroidery Wallpaper Leatherwork Interior decoration Tapestry
Publisher: Philadelphia, London, J. B. Lippincott Company Grand Rapids, The Dean-Hicks Company
Contributing Library: Wellesley College Library
Digitizing Sponsor: Wellesley College Library

View Book Page: Book Viewer
About This Book: Catalog Entry
View All Images: All Images From Book

Click here to view book online to see this illustration in context in a browseable online version of this book.

Text Appearing Before Image:

Text Appearing After Image:
Ilatr ii .i(ii)i.K i ( iiiM.-piuxTF.n zrni.u rri.i!s i nil, ciiim.sk styi.i. ;{i>s WALL PAPERS small figures representing arts and erafts, thirteen slieets with heightof eight feet ten inches and combined width of thirty-seven feet. In1781 a China wall ])aper, glazed, blue ground, made for a roomeighteen feet stinare, with gilt moulding. THP: FOI.l.OT fOl.I.ECTIOX The most interesting exhibition eer made of ancient wall paperswas by the late Felix FoUot at the Paris Exposition of 1900. Thewriter was fortunate enough to have lent him a cojn* of the ])rivatelyjn-inted little book jn-epared by M. Follot with the title Papierspeints, a Iexjjosition universelle internationale de 1900. At thisjjoint it is important to note that the French name for wall 2)apers isstill papiers pcinf.s (painted 2)apers), inherited from the })eriod whenthey actually were painted. M. Follot had spent forty years in getting together his collec-tion, and the honour of organising the exhibition was only

Note About Images
Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability – coloration and appearance of these illustrations may not perfectly resemble the original work.

Then and Now® Bathing Suit Barbie® – Made in China
molds made in china
Image by Dolls ‘n Stuff
This version of Then and Now® Bathing Suit Barbie® was made in China. Click here to see one of the versions that was made in Indonesia.

You can read more about it here.

Nice Precision Tooling Made In China photos

Nice Precision Tooling Made In China photos

A few nice precision tooling made in china images I found:

Steven F. Udvar-Hazy Center: Lockheed Martin X-35B Joint Strike Fighter, with other modern jet aircraft
precision tooling made in china
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | Lockheed Martin X-35B STOVL:

This aircraft is the first X-35 ever built. It was originally the X-35A and was modified to include the lift-fan engine for testing of the STOVL concept. Among its many test records, this aircraft was the first in history to achieve a short takeoff, level supersonic dash, and vertical landing in a single flight. It is also the first aircraft to fly using a shaft-driven lift-fan propulsion system. The X-35B flight test program was one of the shortest, most effective in history, lasting from June 23, 2001 to August 6, 2001.

The lift-fan propulsion system is now displayed next to the X-35B at the Steven F. Udvar-Hazy Center near Dulles Airport.

On July 7, 2006, the production model F-35 was officially named F-35 Lightning II by T. Michael Moseley, Chief of Staff USAF.

Transferred from the United States Air Force.

Date:
2001

Dimensions:
Wing span: 10.05 m (33 ft 0 in)
Length: 15.47 m (50 ft 9 in)
Height: approximately 5 m (15 ft 0 in)
Weight: approximately 35,000 lb.

Materials:
Composite material aircraft skin, alternating steel and titanium spars. Single-engine, single-seat configuration includes lift-fan and steering bars for vertical flight.

Physical Description:
Short takeoff/vertical landing variant to be used by U.S. Air Force, U.S. Marines and the United Kingdom, equipped with a shaft-driven lift fan propulsion system which enables the aircraft to take off from a short runway or small aircraft carrier and to land vertically.
Engine: Pratt & Whitney JSF 119-PW-611 turbofan deflects thrust downward for short takeoff/vertical landing capability. The Air Force and Navy versions use a thrust-vectoring exhaust nozzle. The Marine Corps and Royal Air Force/Navy version has a swivel-duct nozzle; an engine-driven fan behind the cockpit and air-reaction control valves in the wings to provide stability at low speeds.
Other major subcontractors are Rolls Royce and BAE.

• • • • •

Quoting Smithsonian National Air and Space Museum | Grumman A-6E Intruder:

The Navy’s experience in the Korean War showed the need for a new long-range strike aircraft with high subsonic performance at very low altitude–an aircraft that could penetrate enemy defenses and find and destroy small targets in any weather. The Grumman A-6 Intruder was designed with these needs in mind. The Intruder first flew in 1960 and was delivered to the Navy in 1963 and the Marine Corps in 1964.

The Navy accepted this airplane as an "A" model in 1968. It served under harsh combat conditions in the skies over Vietnam and is a veteran of the 1991 Desert Storm campaign, when it flew missions during the first 72 hours of the war. It has accumulated more than 7,500 flying hours, over 6,500 landings, 767 carrier landings, and 712 catapult launches.

Transferred from the United States Navy, Office of the Secretary

Date:
1960

Country of Origin:
United States of America

Dimensions:
Overall: 16ft 2in. x 52ft 12in. x 54ft 9in., 26745.8lb. (4.928m x 16.154m x 16.688m, 12131.8kg)

Materials:
Conventional all-metal, graphite/epoxy wing (retrofit), aluminium control surfaces, titanium high-strength fittings (wing-fold).

Physical Description:
Dual place (side by side), twin-engine, all-weather attack aircraft; multiple variants.

Nice China Molds Make Maker photos

Nice China Molds Make Maker photos

A few nice china molds make maker images I found:

FOR SALE: Original North Light Cob
china molds make maker
Image by appaIoosa
Model # P1162 – red roan
Size: 7"H x 8"L
original mold, produced by North Light.
Identifying marks & logos:
Inside hind leg: "© NL 93", plus " MADE IN UK "

"Cob" is a British term for a "cobby" (translation = stout & compact build) horse of undetermined breeding. The Cob is a type rather than a breed. A short-legged horse exceeding 148cms (58 inches or 14.2 hands) with a maximum height of 155cms (61 inches or 15.1 hands). The Cob has bone and substance with quality and is capable of carrying a substantial weight. Cobs should have sensible heads, (sometimes roman nosed), a full generous eye, shapely neck crested on the top, with a hogged mane and well defined wither. The Cob should also have clean, strong hocks and all the attributes of a good hunter.

|||****************************|||

North Light model horse figurines are made of a porcelain and resin composition, which allow for the extensive mold detailing (some with individual hair detailing, braided manes & tails, etc) that is very evident in the finish. The figurines are finished in a studio where they are airbrushed with the body color and shading required for the particular breed piece. Next comes the hand detailing , which can be extensive, depending on the horses’ color pattern. Pinto and appaloosa patterns require extensive hand work, and vary greatly from horse to horse. Facial features also receive hand detailing, with expressive, lifelike eyes which have a final gloss application to make them look moist and realistic. Touches of pink are added to muzzles. Nostrils are darkened inside to add depth.

With this degree of hand detailing, each model horse will vary slightly.

North Light is a company located in Stoke-On-Trent, Staffordshire, England. The area is famous for its potteries and figurines, including the well known Wedgwood, Beswick and Royal Doulton brands. In 2005, the North Light factory was sold – including all existing North Light molds – to the company: WADE CERAMICS LTD (yes, the same company that made those little whimsy figurines found in red rose tea boxes years ago). Wade repackaged the existing North Light horses under their new trademark and resold them within the Wade division as "North Light @ Wade" horses.

Directly from Wade Co. website, verbatim:
———————————–
Contributed by Carol Atrak
Monday, 18 July 2005

We have pleasure in announcing that Wade has purchased certain assets from Dennis Doyle of the North Light resin figurine range. North Light, which will trade as a division within Wade as "North Light @ Wade", is famous for its range of dogs, farm animals, horses and wildlife figurines. They are manufactured in resin and hand painted. The "Classic Dog and Horse Ranges" are finished in marble, china blue, bronze, Monet and other effects to grace the sideboards and coffee tables of the World’s finest homes.

Managing Director, Paul Farmer said, "North Light @ Wade" will bring a new dimension to Wade’s figurine capability and Wade’s mechanisms for online purchases of its ceramic products will be adapted to cater for North Light products too. We are also looking forward to improving our ceramic hand painting techniques which come with the North Light asset purchase."

Artists, Guy Pocock and Anne Godfrey, have been retained to continue modelling new lines and Clare Beswick, from that famous family of figurine makers which bears her name, has been appointed Sales and Product Manager for North Light @ Wade.

The manufacture has been moved from Biddulph to a separate resin area within Wade’s Royal Victoria Pottery in Burslem.

In 2008, Wade announced they would no longer produce the North Light @Wade horses (and dogs) at the factory (in the UK). Instead they decided to release a new line: "North Light @ Wade Premier Collection" (consisting of 17 horses and 22 dogs) – to be produced in China. Many of the existing NL horses you see being sold on eBay (and elsewhere) today, bear the "made in China" sticker, along with the NL backstamp.

In 2009, Wade ceased production altogether on all existing North Light models . Today, North Light horses are no longer being produced, sold or marketed by Wade Ceramics, making these horses highly sought after, valuable and rare.

I have no idea what the Wade Co. decided to do with all the existing North Light horses. Some say they sold the existing molds to a company in China.

If your North Light horse has the "©North Light Made in the UK" backstamp, you have a very rare & valuable collectible indeed!

The Greek Slave, Victoria and Albert Museum, London. Fujifilm.
china molds make maker
Image by scotbot
Minton’s version of the Greek Slave was first produced in 1848. It is made of Parian, Minton’s name for statuary porcelain, which alludes to the white marble from the Greek isle, Paros. The figure copied a marble statue first exhibited in London in 1845 and now in Raby Castle, Durham. A marble replica, now in the Corcoran Gallery, Washington DC, was shown at the Great Exhibition. It stood against a red plush backdrop in the main avenue of the Crystal Palace and was much admired, despite ambivalent Victorian attitudes to displayed nudity.

Materials & Making
At the Exhibition of 1851, Minton’s trade name, Parian was in general use for all vitrified unglazed bone china, even though rival companies had invented their own names for the material. Each part of a figure was made in a separate mould. The smooth appearance of the finished figure was admired as much for its technical skill as for its aesthetic qualities. Minton produced over 500 Parian figures between 1845 and 1910.

People
The American sculptor, Hiram Powers (1805-1873) was the son of a Vermont farmer who was fortunate to receive help from a patron to move to Florence in 1837, where he established his reputation.

Subjects Depicted
Hiram Powers’ Greek Slave depicts a Greek woman exposed for sale at a Turkish bazaar. It alludes to the Greek War of Independence (1821-1832) but was also topical as slavery was abolished in Britain in 1833, while it was still prevalent in many American states. Minton later produced further slave figures, including an American Slave in 1862.

Date

1862 (made)
Artist/maker

Powers, Hiram, born 1805 – died 1873 (after, sculptor)
Minton, Hollins & Co. (maker)
Materials and Techniques

Parian porcelain
Dimensions

Height: 35.4 cm, Width: 11.3 cm, Depth: 9.9 cm
Object history note

Made by Minton & Co., Stoke-on-Trent, Staffordshire
Descriptive line

The Greek slave
Labels and date

British Galleries:
The full-scale marble sculpture of ‘The Greek Slave’, carved by the American sculptor Hiram Powers (1805-1873) in 1843, was one of the most popular exhibits at the Crystal Palace in 1851. This is a small scale version made in Parian porcelain. The invention of a machine in 1844 which could reduce sculptural works in scale meant that Parian replicas could be produced with a high degree of accuracy. [27/03/2003]
Production Note

Mould dated 1848; this example made in 1862