Good Precision Parts Engineering photos

Good Precision Parts Engineering photos

Some cool precision components engineering pictures:

Image from web page 196 of “Railway mechanical engineer” (1916)
precision parts engineering
Image by Web Archive Book Pictures
Identifier: railwaymechanica94newy
Title: Railway mechanical engineer
Year: 1916 (1910s)
Authors:
Subjects: Railroad engineering Engineering Railroads Railroad automobiles
Publisher: New York, N.Y. : Simmons-Boardman Pub. Co
Contributing Library: Carnegie Library of Pittsburgh
Digitizing Sponsor: Lyrasis Members and Sloan Foundation

View Book Web page: Book Viewer
About This Book: Catalog Entry
View All Pictures: All Photos From Book

Click here to view book on the web to see this illustration in context in a browseable on-line version of this book.

Text Appearing Before Image:
be speedily applied to anymachine tool in the shop. Several machine shop tools arenot equipped with a pan and pump, due to the fact they are usedmostly for functioning on grey iron, but sometimes the ma-chine might be used on malleable iron or steel, in which casea coolant is important for the greatest benefits. In such instances, theportable unit illustrated can be utilized to great advantage.It may also be used on machines currently provided with acoolant program, which for some cause or other is out oforder. In this emergency the transportable method shown can be instantly brought into location and production will notbe interrupted. The Fulllo pump illustrated is a total, self-containedsystem, requiring practically nothing but attaching the motor cord tothe lump socket. The total height from the floor is only14 in., which pennits its being rolled below any ordinarylathe, as shown in the illustration. Provision is produced forattaching further splash boards when essential. Thepump and motor are totally covered, as a result affording

Text Appearing Right after Image:
Fulflo Portable Lubricating Unit Utilized with Turret Lathe ample protection from each liquids and dust. The outfitcan be utilized on grinding machines as w-ell as on lathes,milling machines, drill presses, gear cutters, and so forth. Thereis only one particular moving part in the pump namely, the impeller,which has no metal contact, and for that reason cannot wear outquickly. It is packed with metallic packing which willnot reduce the shaft. The bearings are nicely lubricated, andsince the shaft is hardened and ground, extended, continuedservice may be anticipated. MULTI GRADUATED PRECISION GRINDER It has Ijeen tough in the past to machine screw threadsurfaces with the same accuracy obtained in machiningcylindrical, flat or spherical surfaces. On account of thisfact, it has been difficult to make master thread gages and themachine illustrated was created for this goal by thePrecision &amp Thread Grinder Manufacturing Company, Phil-adelphia, Pa. It can be employed in conjunction with anymachine tool and is adaptable to a selection

Note About Pictures
Please note that these photos are extracted from scanned web page pictures that may possibly have been digitally enhanced for readability – coloration and look of these illustrations could not perfectly resemble the original work.

Steven F. Udvar-Hazy Center: North American P-51C, “Excalibur III”, with tails of Concorde & Boeing 707 in background
precision parts engineering
Image by Chris Devers
Quoting Smithsonian National Air and Space Museum | North American P-51C, &quotExcalibur III&quot:

On Could 29, 1951, Capt. Charles F. Blair flew Excalibur III from Norway across the North Pole to Alaska in a record-setting 10½ hours. Making use of a method of meticulously plotted &quotsun lines&quot he created, Blair was in a position to navigate with precision exactly where conventional magnetic compasses usually failed. 4 months earlier, he had flown Excalibur III from New York to London in significantly less than eight hours, breaking the existing mark by over an hour.

Excalibur III very first belonged to famed aviator A. Paul Mantz, who added added fuel tanks for long-distance racing to this normal P-51C fighter. With it Mantz won the 1946 and 1947 Bendix air race and set a transcontinental speed record in 1947 when the airplane was named Blaze of Noon. Blair bought it from Mantz in 1949 and renamed it Excalibur III, following the Sikorsky VS-44 flying boat he flew for American Export Airlines.

Present of Pan American Planet Airways

Manufacturer:
North American Aircraft Firm

Date:
1944

Nation of Origin:
United States of America

Dimensions:
Wingspan: 11.three m (37 ft)
Length: 9.eight m (32 ft three in)
Height: three.9 m (12 ft ten in)
Weight, empty: 4,445 kg (9,800 lb)
Weight, gross: 5,052 kg (11,800 lb)
Leading speed: 700 km/h (435 mph)

Supplies:
Overall: Aluminum

Physical Description:
Single seat, single engine, low wing monoplane, Planet War II fighter modified for racing.

• • • • •

Quoting Smithsonian National Air and Space Museum | Boeing 367-80 Jet Transport:

On July 15, 1954, a graceful, swept-winged aircraft, bedecked in brown and yellow paint and powered by four revolutionary new engines 1st took to the sky above Seattle. Built by the Boeing Aircraft Company, the 367-80, greater recognized as the Dash 80, would come to revolutionize industrial air transportation when its created version entered service as the renowned Boeing 707, America’s 1st jet airliner.

In the early 1950s, Boeing had begun to study the possibility of creating a jet-powered military transport and tanker to complement the new generation of Boeing jet bombers entering service with the U.S. Air Force. When the Air Force showed no interest, Boeing invested million of its personal capital to build a prototype jet transport in a daring gamble that the airlines and the Air Force would buy it after the aircraft had flown and verified itself. As Boeing had accomplished with the B-17, it risked the company on 1 roll of the dice and won.

Boeing engineers had initially primarily based the jet transport on research of improved designs of the Model 367, better identified to the public as the C-97 piston-engined transport and aerial tanker. By the time Boeing progressed to the 80th iteration, the design and style bore no resemblance to the C-97 but, for security reasons, Boeing decided to let the jet project be identified as the 367-80.

Operate proceeded swiftly right after the formal start off of the project on May possibly 20, 1952. The 367-80 mated a huge cabin primarily based on the dimensions of the C-97 with the 35-degree swept-wing design primarily based on the wings of the B-47 and B-52 but considerably stiffer and incorporating a pronounced dihedral. The wings had been mounted low on the fuselage and incorporated higher-speed and low-speed ailerons as effectively as a sophisticated flap and spoiler technique. 4 Pratt &amp Whitney JT3 turbojet engines, every producing 10,000 pounds of thrust, have been mounted on struts beneath the wings.

Upon the Dash 80’s initial flight on July 15, 1954, (the 34th anniversary of the founding of the Boeing Firm) Boeing clearly had a winner. Flying 100 miles per hour quicker than the de Havilland Comet and considerably bigger, the new Boeing had a maximum variety of much more than 3,500 miles. As hoped, the Air Force bought 29 examples of the design as a tanker/transport after they convinced Boeing to widen the design by 12 inches. Satisfied, the Air Force designated it the KC-135A. A total of 732 KC-135s were constructed.

Quickly Boeing turned its attention to promoting the airline industry on this new jet transport. Clearly the sector was impressed with the capabilities of the prototype 707 but never ever far more so than at the Gold Cup hydroplane races held on Lake Washington in Seattle, in August 1955. In the course of the festivities surrounding this occasion, Boeing had gathered a lot of airline representatives to appreciate the competitors and witness a fly past of the new Dash 80. To the audience’s intense delight and Boeing’s profound shock, test pilot Alvin &quotTex&quot Johnston barrel-rolled the Dash 80 over the lake in full view of thousands of astonished spectators. Johnston vividly displayed the superior strength and overall performance of this new jet, readily convincing the airline sector to get this new airliner.

In searching for a market, Boeing discovered a prepared consumer in Pan American Airway’s president Juan Trippe. Trippe had been spending a lot of his time looking for a appropriate jet airliner to allow his pioneering business to sustain its leadership in international air travel. Working with Boeing, Trippe overcame Boeing’s resistance to widening the Dash-80 design and style, now recognized as the 707, to seat six passengers in every single seat row rather than 5. Trippe did so by placing an order with Boeing for 20 707s but also ordering 25 of Douglas’s competing DC-8, which had but to fly but could accommodate six-abreast seating. At Pan Am’s insistence, the 707 was produced four inches wider than the Dash 80 so that it could carry 160 passengers six-abreast. The wider fuselage created for the 707 became the regular style for all of Boeing’s subsequent narrow-body airliners.

Though the British de Havilland D.H. 106 Comet and the Soviet Tupolev Tu-104 entered service earlier, the Boeing 707 and Douglas DC-8 were larger, more quickly, had higher range, and had been far more lucrative to fly. In October 1958 Pan American ushered the jet age into the United States when it opened international service with the Boeing 707 in October 1958. National Airlines inaugurated domestic jet service two months later using a 707-120 borrowed from Pan Am. American Airlines flew the initial domestic 707 jet service with its personal aircraft in January 1959. American set a new speed mark when it opened the first often-scheduled transcontinental jet service in 1959. Subsequent nonstop flights amongst New York and San Francisco took only 5 hours – three hours much less than by the piston-engine DC-7. The a single-way fare, such as a surcharge for jet service, was five.50, or 1 round trip. The flight was nearly 40 percent more rapidly and virtually 25 percent more affordable than flying by piston-engine airliners. The consequent surge of targeted traffic demand was substantial.

The 707 was originally designed for transcontinental or a single-cease transatlantic variety. But modified with further fuel tanks and more efficient turbofan engines, the 707-300 Intercontinental series aircraft could fly nonstop across the Atlantic with full payload below any situations. Boeing constructed 855 707s, of which 725 were bought by airlines worldwide.

Having launched the Boeing Company into the commercial jet age, the Dash 80 soldiered on as a highly effective experimental aircraft. Till its retirement in 1972, the Dash 80 tested numerous advanced systems, many of which have been incorporated into later generations of jet transports. At one point, the Dash 80 carried three distinct engine kinds in its four nacelles. Serving as a test bed for the new 727, the Dash 80 was briefly equipped with a fifth engine mounted on the rear fuselage. Engineers also modified the wing in planform and contour to study the effects of diverse airfoil shapes. Many flap configurations were also fitted which includes a highly sophisticated method of &quotblown&quot flaps which redirected engine exhaust over the flaps to increase lift at low speeds. Fin height and horizontal stabilizer width was later improved and at one particular point, a special a number of wheel low stress landing gear was fitted to test the feasibility of operating future heavy military transports from unprepared landing fields.

After a extended and distinguished profession, the Boeing 367-80 was finally retired and donated to the Smithsonian in 1972. At present, the aircraft is installated at the National Air and Space Museum’s new facility at Washington Dulles International Airport.

Present of the Boeing Company

Manufacturer:
Boeing Aircraft Co.

Date:
1954

Nation of Origin:
United States of America

Dimensions:
Height 19′ 2&quot: Length 73′ ten&quot: Wing Span 129′ eight&quot: Weight 33,279 lbs.

Physical Description:
Prototype Boeing 707 yellow and brown.

• • • • •

Quoting Smithsonian National Air and Space Museum | Concorde, Fox Alpha, Air France:

The initial supersonic airliner to enter service, the Concorde flew thousands of passengers across the Atlantic at twice the speed of sound for more than 25 years. Developed and built by Aérospatiale of France and the British Aviation Corporation, the graceful Concorde was a stunning technological achievement that could not overcome serious financial troubles.

In 1976 Air France and British Airways jointly inaugurated Concorde service to destinations about the globe. Carrying up to 100 passengers in excellent comfort, the Concorde catered to 1st class passengers for whom speed was vital. It could cross the Atlantic in fewer than four hours – half the time of a traditional jet airliner. Even so its higher operating charges resulted in really higher fares that restricted the number of passengers who could afford to fly it. These problems and a shrinking industry at some point forced the reduction of service till all Concordes were retired in 2003.

In 1989, Air France signed a letter of agreement to donate a Concorde to the National Air and Space Museum upon the aircraft’s retirement. On June 12, 2003, Air France honored that agreement, donating Concorde F-BVFA to the Museum upon the completion of its last flight. This aircraft was the 1st Air France Concorde to open service to Rio de Janeiro, Washington, D.C., and New York and had flown 17,824 hours.

Present of Air France.

Manufacturer:
Societe Nationale Industrielle Aerospatiale
British Aircraft Corporation

Dimensions:
Wingspan: 25.56 m (83 ft 10 in)
Length: 61.66 m (202 ft 3 in)
Height: 11.3 m (37 ft 1 in)
Weight, empty: 79,265 kg (174,750 lb)
Weight, gross: 181,435 kg (400,000 lb)
Leading speed: 2,179 km/h (1350 mph)
Engine: 4 Rolls-Royce/SNECMA Olympus 593 Mk 602, 17,259 kg (38,050 lb) thrust every
Manufacturer: Société Nationale Industrielle Aérospatiale, Paris, France, and British Aircraft Corporation, London, United Kingdom

Physical Description:
Aircaft Serial Number: 205. Such as four (4) engines, bearing respectively the serial quantity: CBE066, CBE062, CBE086 and CBE085.
Also included, aircraft plaque: &quotAIR FRANCE Lorsque viendra le jour d’exposer Concorde dans un musee, la Smithsonian Institution a dores et deja choisi, pour le Musee de l’Air et de l’Espace de Washington, un appariel portant le couleurs d’Air France.&quot

GB 8624-1997 normal fireproof components – refractory – Precision Fasteners – CNC Machining Parts

GB 8624-1997 normal fireproof components – refractory – Precision Fasteners – CNC Machining Parts

GB 8624-1997 requirements for fire prevention materials

Common variety Normal Name (English) Normal No. Standard Issued Release Date Common

Date Standards Common text Foreword This standard is GB8624-88 revision. Non-equivalent in technical content material, utilizing the German standard

DIN4102-81 Component. The revision, compared with the GB8624-88, the addition of A-level composite (sandwich) supplies, and according to my

Nation-particular circumstances, an enhance of the certain uses of flooring, curtains and curtain variety textiles, wire and cable casing

Class plastic supplies and pipe insulation foam employed specified. If the specific use of supplies as

Wall or ceiling supplies used, nevertheless should be Chapter 4 of the normal provisions of Chapter 5 of the inspection and grading.

This standard from the efficient date of the original GB8624-88 shall be invalid. The People’s Republic of China Ministry of Public Security

This normal is raised. This common by the National Fire Protection Standardization Technology Committee Sub-Committee under the jurisdiction of the seventh.

The standard Ministry of Public Safety of Sichuan Fire Research Institute is accountable for drafting.

Main drafters of this normal: Qian Jianmin, Ma Xianglin, Lu National Development.

The normal initial released in February 1988.

The People’s Republic of China national standard

GB 8624-1997 Classification flammability of creating supplies

Instead of GB 8624-88 Classification on burning behaviour for developing supplies

1 Subject Matter and Scope This normal specifies the combustion properties of materials evaluation and classification standards.

This common applies to all kinds of industrial and civil engineering structures used in a assortment of decorative materials and gear

Repair components. two Normative references Following requirements contain provisions which, by means of reference in this regular, constitute the standard provisions. The normal

Time of publication, the editions indicated had been valid. All requirements are topic to revision, the parties need to discover the normal so that

With the possibility of the most recent version of the following criteria.

GB/T2406-93 Test technique for flammability of plastic oxygen index

GB/T2408-80 Test approach for flammability of plastic the level of combustion

GB/T4609-84 Test technique for flammability of plastic vertical burning

GB/T5454-85 burning properties of textile fabrics Determination of oxygen index

GB/T5455-85 Determination of vertical flame retardant textile fabrics technique

GB/T5464-85 not flammable building materials test methods

GB/T8332-87 foam combustion behavior of horizontal combustion

GB/T8333-87 challenging foam combustion vertical burning test strategies

GB/T8625-88 flammability for building materials test approach

GB/T8626-88 materials flammability test strategies

GB/T8627-88 combustion or decomposition of materials test methods for smoke density

GB/T8629-88 test used in the family textile washing and drying procedures

GB/T11785-89 paving Crucial Radiant Flux from a radiant heat source technique

GB/T14402-93 Test technique of heat burning constructing supplies

GB/T14403-93 combustion heat test techniques for constructing materials

three level of flammability of constructing components and name

Level of flammability of constructing components and names in Table 1.

Table 1 Combustion level and name

-Level name A noncombustible components B1 flame retardant supplies B2 combustible materials B3 flammable supplies Bureau of Technical Supervision 1997-04-04 1997-10-01 authorized the implementation of

GB 8624-1997 4 non-combustible type material (A Grade)

four.1 A homogeneous material level

By GB/T5464 test, the fuel properties to be accomplished:

A) the furnace typical temperature rise of not much more than 50

B) the sample continued to burn an average of no a lot more than 20s

C) The typical mass loss rate of the sample does not exceed 50%.

four.2 A class of composite (Sandwich) materials

Meet the following requirements of the material, its combustion properties as A-level.

A) by GB/T8625 testing, every single specimen, the average remaining length of 35cm (including any of the specimens

The remaining length of&gt 20cm), and the average gas temperature of every single test peak 125 , the sample on the back with out any fuel

Burning phenomenon B) by GB/T8627 test, the smoke density rating (SDR) 15

C) by GB/T14402 and GB/T14403 test, its thermal worth four.2MJ/kg, and specimen

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Cool Metal Parts China pictures

Some cool metal components china pictures:

Steven F. Udvar-Hazy Center: View down onto SR-71 Blackbird & Boeing P-26A Peashooter
metal parts china
Image by Chris Devers
See much more images of this, and the Wikipedia post.

Specifics, quoting from Smithsonian National Air and Space Museum | Boeing P-26A Peashooter:

The Boeing P-26A of the mid-to-late 1930s introduced the idea of the higher-functionality, all-metal monoplane fighter design and style, which would grow to be common during World War II. A radical departure from wood-and-fabric biplanes, the Peashooter nonetheless retained an open cockpit, fixed landing gear, and external wing bracing.

Most P-26As stationed overseas were at some point sold to the Philippines or assigned to the Panama Canal Department Air Force, a branch of the U.S. Army Air Corps. Several went to China and a single to Spain. This a single was based at Selfridge Field in Michigan and Fairfield Air Depot in Ohio amongst its acceptance by the U.S. Army Air Corps in 1934 and its transfer to the Canal Zone in 1938. It was offered to Guatemala in 1942 and flew in the Guatemalan air force till 1954. Guatemala donated it to the Smithsonian in 1957.

Gift of the Guatemalan Air Force, Republic of Guatemala

Manufacturer:
Boeing Aircraft Co.

Date:
1934

Nation of Origin:
United States of America

Dimensions:
Wingspan: 8.5 m (27 ft 11 in)
Length:7.three m (23 ft 11 in)
Height:3.1 m (ten ft two in)
Weight, empty:996 kg (two,196 lb)
Weight, gross:1,334 kg (2,935 lb)
Best speed:377 km/h (234 mph)
Engine:Pratt &amp Whitney R-1340-27, 600 hp
Armament:two .30 cal. M2 Browning aircraft machine guns

• • •

Quoting from Boeing History | P-26 &quotPeashooter&quot Fighter:

The all-metal, single-wing P-26, popularly identified as the &quotPeashooter,&quot was an totally new design and style for Boeing, and its structure drew heavily on the Monomail. The Peashooter’s wings were braced with wire, rather than with the rigid struts employed on other airplanes, so the airplane was lighter and had significantly less drag. Its initial high landing speeds had been lowered by the addition of wing flaps in the production models.

Due to the fact the P-26 flew 27 mph faster and outclimbed biplane fighters, the Army ordered 136 production-model Peashooters. Acclaimed by pilots for its speed and maneuverability, the small but feisty P-26 formed the core of pursuit squadrons all through the United States.

Twelve export versions, 11 for China and 1 for Spain, had been built. 1 of a group of P-26s, turned more than to the Philippine Army late in 1941, was among the very first Allied fighters to down a Japanese airplane in Globe War II.

Funds to purchase the export version of the Peashooter were partly raised by Chinese Americans. Contribution boxes have been placed on the counters of Chinese restaurants.

Specifications

• Very first flight: March 20, 1932
• Model number: 248/266
• Classification: Fighter
• Span: 28 feet
• Length: 23 feet 7 inches
• Gross weight: two,995 pounds
• Best speed: 234 mph
• Cruising speed: 200 mph
• Range: 635 miles
• Ceiling: 27,400 feet
• Power: 600-horsepower P&ampW Wasp engine
• Accommodation: 1 pilot
• Armament: 2 machine guns, 200-pound bomb load

• • • • •

See a lot more pictures of this, and the Wikipedia report.

Particulars, 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 full 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 technologies developments for the duration of 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 final flight, March six, 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, four 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. &quotKelly&quot Johnson

Date:
1964

Country of Origin:
United States of America

Dimensions:
All round: 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-type material) to minimize radar cross-section Pratt and Whitney J58 (JT11D-20B) turbojet engines function large inlet shock cones.

Extended Description:
No reconnaissance aircraft in history has operated in more hostile airspace or with such full impunity than the SR-71 Blackbird. It is the fastest aircraft propelled by air-breathing engines. The Blackbird’s overall performance and operational achievements placed it at the pinnacle of aviation technology developments in the course of the Cold War. The airplane was conceived when tensions with communist Eastern Europe reached levels approaching a complete-blown crisis in the mid-1950s. U.S. military commanders desperately required precise assessments of Soviet worldwide military deployments, especially near the Iron Curtain. Lockheed Aircraft Corporation’s subsonic U-two (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 fast development of surface-to-air missile systems could place U-2 pilots at grave threat. The danger proved reality when a U-two was shot down by a surface to air missile over the Soviet Union in 1960.

Lockheed’s 1st proposal for a new high speed, higher altitude, reconnaissance aircraft, to be capable of avoiding interceptors and missiles, centered on a design propelled by liquid hydrogen. This proved to be impracticable since of considerable fuel consumption. Lockheed then reconfigured the design for traditional 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 and style engineer Clarence L. &quotKelly&quot Johnson) developed the A-12 to cruise at Mach 3.two and fly properly above 18,288 m (60,000 feet). To meet these difficult requirements, Lockheed engineers overcame numerous daunting technical challenges. Flying much more than three instances the speed of sound generates 316° C (600° F) temperatures on external aircraft surfaces, which are sufficient to melt traditional aluminum airframes. The design team chose to make the jet’s external skin of titanium alloy to which shielded the internal aluminum airframe. Two standard, but extremely effective, afterburning turbine engines propelled this exceptional aircraft. These energy plants had to operate across a massive speed envelope in flight, from a takeoff speed of 334 kph (207 mph) to far more than three,540 kph (two,200 mph). To prevent supersonic shock waves from moving inside the engine intake causing flameouts, Johnson’s group had to style a complicated air intake and bypass method for the engines.

Skunk Operates engineers also optimized the A-12 cross-section style to exhibit a low radar profile. Lockheed hoped to obtain this by cautiously shaping the airframe to reflect as little transmitted radar energy (radio waves) as achievable, and by application of unique paint made to absorb, rather than reflect, these waves. This treatment became one of the first applications of stealth technologies, but it in no way totally met the style ambitions.

Test pilot Lou Schalk flew the single-seat A-12 on April 24, 1962, right after he became airborne accidentally in the course of higher-speed taxi trials. The airplane showed wonderful guarantee but it needed considerable technical refinement ahead of the CIA could fly the very first operational sortie on May possibly 31, 1967 – a surveillance flight more than North Vietnam. A-12s, flown by CIA pilots, operated as part of the Air Force’s 1129th Particular Activities Squadron under the &quotOxcart&quot system. 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 Functions, nevertheless, proposed a &quotspecific mission&quot version configured to conduct post-nuclear strike reconnaissance. This program evolved into the USAF’s familiar SR-71.

Lockheed constructed fifteen A-12s, which includes a unique two-seat trainer version. Two A-12s have been modified to carry a specific reconnaissance drone, designated D-21. The modified A-12s have been redesignated M-21s. These had been created 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 higher adequate to ignite the drone’s ramjet motor. Lockheed also constructed 3 YF-12As but this variety in no way went into production. Two of the YF-12As crashed throughout testing. Only one particular survives and is on display at the USAF Museum in Dayton, Ohio. The aft section of a single of the &quotwritten off&quot YF-12As which was later employed 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 very first SR-71 flew on December 22, 1964. Since of intense operational expenses, military strategists decided that the far more capable USAF SR-71s should replace the CIA’s A-12s. These have been retired in 1968 after only one year of operational missions, mainly over southeast Asia. The Air Force’s 1st Strategic Reconnaissance Squadron (element of the 9th Strategic Reconnaissance Wing) took over the missions, flying the SR-71 starting in the spring of 1968.

After the Air Force began to operate the SR-71, it acquired the official name Blackbird– for the unique 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.

Expertise gained from the A-12 system convinced the Air Force that flying the SR-71 safely essential 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 gear included a sophisticated Electronic Counter Measures (ECM) technique that could jam most acquisition and targeting radar. In addition to an array of advanced, high-resolution cameras, the aircraft could also carry equipment made to record the strength, frequency, and wavelength of signals emitted by communications and sensor devices such as radar. The SR-71 was created 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 three.3 at an altitude much more than sixteen miles, or 25,908 m (85,000 ft), above the earth. The crew had to wear stress suits related to these worn by astronauts. These suits had been required to safeguard the crew in the event of sudden cabin pressure loss whilst at operating altitudes.

To climb and cruise at supersonic speeds, the Blackbird’s Pratt &amp Whitney J-58 engines have been made to operate continuously in afterburner. Although this would seem to dictate higher fuel flows, the Blackbird actually achieved its ideal &quotgas mileage,&quot in terms of air nautical miles per pound of fuel burned, throughout the Mach 3+ cruise. A common Blackbird reconnaissance flight may require several aerial refueling operations from an airborne tanker. Every time the SR-71 refueled, the crew had to descend to the tanker’s altitude, usually about six,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 these covering the fuel tanks contracted so a lot that fuel leaked, forming a distinctive vapor trail as the tanker topped off the Blackbird. As soon as the tanks had been filled, the jet’s crew disconnected from the tanker, relit the afterburners, and once more climbed to higher altitude.

Air Force pilots flew the SR-71 from Kadena AB, Japan, throughout its operational profession but other bases hosted Blackbird operations, too. The 9th SRW occasionally deployed from Beale AFB, California, to other places to carryout operational missions. Cuban missions had been flown directly from Beale. The SR-71 did not begin to operate in Europe till 1974, and then only temporarily. In 1982, when the U.S. Air Force primarily 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 currently replaced manned aircraft to gather intelligence from websites deep inside Soviet territory. Satellites could not cover every geopolitical hotspot so the Blackbird remained a vital tool for global intelligence gathering. On several occasions, pilots and RSOs flying the SR-71 supplied details that proved essential in formulating productive U. S. foreign policy. Blackbird crews supplied critical 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 carried out by American air forces on Libya. In 1987, Kadena-primarily based SR-71 crews flew a quantity of missions more than the Persian Gulf, revealing Iranian Silkworm missile batteries that threatened commercial shipping and American escort vessels.

As the performance of space-primarily based surveillance systems grew, along with the effectiveness of ground-based air defense networks, the Air Force began to shed enthusiasm for the costly system and the 9th SRW ceased SR-71 operations in January 1990. In spite of protests by military leaders, Congress revived the plan in 1995. Continued wrangling more than operating budgets, even so, quickly led to final termination. The National Aeronautics and Space Administration retained two SR-71As and the a single SR-71B for higher-speed research projects and flew these airplanes until 1999.

On March 6, 1990, the service profession of one Lockheed SR-71A Blackbird ended with a record-setting flight. This special airplane bore Air Force serial quantity 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, four minutes, and 20 seconds, averaging a speed of three,418 kph (two,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&quot
Length: 107’5&quot
Height: 18’6&quot
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 Given that 1913. Annapolis, Md.: Naval Institute Press, 1987.

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

Miller, Jay. Lockheed Martin’s Skunk Operates. 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

Cool Sheet Metal Parts China images

Some cool sheet metal parts china images:

Image from web page 429 of “Handbook of ornament a grammar of art, industrial and architectural designing in all its branches, for practical as properly as theoretical use” (1900)
sheet metal parts china
Image by Web Archive Book Images
Identifier: handbookoforname1900meye
Title: Handbook of ornament a grammar of art, industrial and architectural designing in all its branches, for sensible as effectively as theoretical use
Year: 1900 (1900s)
Authors: Meyer, Franz Sales, 1849-
Subjects: Decoration and ornament Art objects
Publisher: New York, B. Hessling
Contributing Library: Wellesley College Library
Digitizing Sponsor: Wellesley College Library

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Text Appearing Ahead of Image:
ne finish by a pin, which serves asthe axis. They are collapsible into a narrow shape, andmay be opened-out to a semi-circle. They are held-togetherby a ribbon drawn through them (fig. 13). 5. The Folding fan: distinguished from the preceding by thelamellae being covered by a sheet of paper, silk, &ampc., whichis folded – collectively or spread-out by the opening of the stickswhich compose the frame (fig. 14). It appears from this that the Fixed, the Pennon, and the Radialfans have handles, while the Lamellar and the Folding fans have not.The Radial fan, being a folding fan with a manage, is a sort of inter-mediate kind. The size of the fan varies according to fashion andthe goal for which it is intended, regard getting usually paid toconvenience of handling as a common rule, it might be mentioned that thefirmer, stiffer and a lot more impervious to air the fan is: the smaller itmay be. Fans for cooling should have a quick, broad kind, Fly-flappers require a longer, narrower shape. METAL OBJECTS. 415

Text Appearing Right after Image:
The Fan. Plate 289. 416 The Fan. On the topic of history and style, the following could be mentioned:The Fixed fan is the oldest and most primitive. Its all-natural model isa leaf on a stalk, just as savages at the present time make their fansof dried palm-leaves or of plaited perform in the form of leaves (fig. 4).The feather could also be regarded as a organic model, and hence itsfrequent application to fans of each and every kind. The Pennon fan is theleast practical, its domain is the Middle Ages and the early Eenascence,collectively with particular parts of the East (India, Turkey, Morocco,Tunis, &ampc.). The Eadial fan was also in use in the Middle ages (witha lengthy manage), and down to the present time in specific parts of Italy,Persia, China, and Japan. The Lamellar and the Folding fan are oflater date. Their introduction is contemporaneous with the generaluse of the fan in Europe (15 th century). Right after the period of thelamellar fan in the 17 th century, follows the golden age of the foldingfan in the Rococ

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Cool Stamping Parts China images

Some cool stamping components china images:

China Postage Stamp: tiny boy
stamping parts china
Image by karen horton
c. 1963

component of the Children’s Day series

China postage stamp: green pig
stamping parts china
Image by karen horton
c. 1960, element of Pig Breeding set

developed by Liu Shuoren

Produced IN CHINA.jpg
stamping parts china
Image by christophercozier
&quotMADE IN CHINA&quot stamps have been so significantly a element of our lives expanding up in Caribbean. In the previous it was pencils and plastic pencil-sharpeners, yellow twelve-inch-rulers and so on. Modest items with all the associations of developing nations and low level consumption. Nowadays, in the same locations, for folks with larger budgets, it is now monolithic structures and narratives of progress.
I bought this tiny stamp in a mall in Port of Spain. I started to see these little stamps far more and a lot more over the years. Apparently they are quite frequently utilised for labeling, on arrival, in tiny shops? Why are they becoming labeled here in Trinidad? What would the value of labeling my function this way in narratives of improvement and progress? So far I have begun to label drawings of pedestals for politicians to stand upon.
I am about to install a newer updated version of &quotTropical Night&quot at the TATE, Liverpool in the Afro-Contemporary exhibition. I packed my tiny rubber stamp.

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Cool Sheet Metal Parts China images

Some cool sheet metal components china images:

Image from web page 64 of “Sunset” (1898)
sheet metal parts china
Image by Net Archive Book Pictures
Identifier: sunset74jansout
Title: Sunset
Year: 1898 (1890s)
Authors: Southern Pacific Company. Passenger Department
Subjects:
Publisher: [San Francisco, Calif. : Passenger Dept., Southern Pacific Co.] Menlo Park, CA : Sunset Publishing Corporation
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Text Appearing Before Image:
arently altering it, andat the identical time adding to the appear-ance of the fireplace unit? To find outhow a lot smaller the opening shouldbe, experiment by employing a massive sheet ofcardboard to cover part of the mouth,until you uncover the proportion that ef-fectively stops the smoking. (If indoubt as to proportions, send to Wash-ington, D. C, for Farmers BulletinNo. 1230.) An economical and sensible methodis to build a grate and fender as illus-trated here. The minimum height ofthe grate and fender is 14 inches, and,as the height of the opening in the aver-age fireplace is in between 30 and 34inches, this really cuts the openingdown to about a third its original size.Any machine-shop worker can makesuch a grate. The fender is most attrac-tive, created out of hammered copper andwrought iron if no one particular is found whodoes this function, have a mechanic makeone out of sheet metal. The fender isneeded not only for appears, but in orderto decrease the draft under the fire.Being loose, it can be easily removed

Text Appearing Soon after Image:
although one cleans out the ashes andsweeps the hearth. The front of the grate is created of% by li/j-inch soft steel. The bottombars of the grate are reduce from I/2 by114-inch bars, and are spaced % inchapart, resting at front and rear on two by2-inch angle iron. If the grate is 20inches or more than in depth, it is better tohave the center supported by anotherangle iron. The center grate bars areleft loose, so that they can be turnedover or replaced in case of warping. Inmost fireplaces the back is narrowerthan the front, in which case the trian-gular sides of the bottom of the grate(see sketch) can generally be made outof a piece of y^ by 6-inch sheet ironcut at an angle. It will be discovered veryconvenient to have the grate resting ontwo or much more U-shaped legs for slidingit into the fireplace opening, though itcan be supported on bricks. Rivets(five/16-inch size) are utilised and %-inchholes are drilled which ought to take careof any inaccuracies in lining up theholes. The grate must be set in threeinches fro

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