Superplastic Forming

Description: Superplastic Forming (SPF) Superplastic Forming is a process designed for sheet material allowing elongation of several hundred percent. Materials most commonly used with SPF: Aluminum alloys: 5083, 7475 Titanium alloys: Ti 6Al 4V Nickel Alloys

Description: Hot press is used for SPF of titanium aircraft parts. Alloy sheet is heated in the press to its super plastic state then formed with controlled gas pressure into complex shapes, ducts and structures.

Description: Standard Test Methods for Forming Superplastic Metallic Sheet

Description: ZINC-ALUMINUM SUPERPLASTIC ALLOYS FOR THERMO FORMING, DEEP DRAWING AND STRETCH FORMING

Description: With the increasing demand for fuel efficient vehicles, technologies like superplastic forming (SPF) are being developed and implemented to allow for the utilization of lightweight automotive sheet materials. While forming under superplastic conditions leads to increased

Description: ISO 20032:2013 specifies a method for evaluating the tensile properties of metallic superplastic materials which exhibit what is called "Fine-Grained Superplasticity", without significant work-hardening or dynamic microstructure evolution, by means of a tensile test at constant

Description: Method for evaluation of blow formability by bulging test on metallic superplastic materials

Description: STANDARD TEST METHODS FOR BULGE-FORMING SUPERPLASTIC METALLIC SHEET - INCLUDES STANDARD + REDLINE (PDF)

Description: 1.1 These test methods describe procedures for determining the biaxial formability of a superplastic metallic sheet in a circular die. 1.2 The intent of these test methods are primarily to be used as tests of superplasticity as measured by the ability to form to a

Description: 1.1 These test methods describe procedures for determining the biaxial formability of a test specimen of superplastic metallic sheet in a circular die. 1.2 The intent of these test methods are primarily to be used as tests of superplasticity as measured by the ability to

Description: 1.1 These test methods describe procedures for determining the biaxial formability of a superplastic metallic sheet in a circular die. 1.2 The intent of these test methods are primarily to be used as tests of superplasticity as measured by the ability to form to a

Description: ISO 20032:2013 specifies a method for evaluating the tensile properties of metallic superplastic materials which exhibit what is called "Fine-Grained Superplasticity", without significant work-hardening or dynamic microstructure evolution, by means of a tensile test at constant

Description: 1.1 This test method describes the procedure for determining the superplastic forming properties (SPF) of a metallic sheet material. It includes tests both for the basic SPF properties and also for derived SPF properties. The test for basic properties encompasses effects due to strain

Description: Titanium is a difficult material to fabricate into complex configurations. There is several elevated temperature forming processes available to produce titanium components for aerospace applications. The processes to be discussed are Superplastic Forming (SPF), hot

Description: Aerospace series - Aluminium alloy AL-P7475-O2 - Sheet for superplastic forming (SPF) - 0,8 mm <=a <=6 mm (Endorsed by AENOR in August of 2005.)

Description: Aerospace series - Titanium alloy Ti-6Al-4V - Annealed - Sheet for superplastic forming - a <= 6 mm (Endorsed by AENOR in March of 2013.)

Description: Aerospace series - Test method - Microstructure of (a + ß) titanium alloy wrought products - Part 004: Microstructure of sheet for superplastic forming (Endorsed by AENOR in March of 2007.)

Description: Aerospace series - Aluminium alloy AL-P8090-O2 - Sheet for superplastic forming (SPF) - 0,8 mm <=a <=6 mm (Endorsed by AENOR in August of 2005.)

Description: This specification covers an aluminum alloy in the form of sheet procured in metric units. Primarily for parts requiring a high degree of formability (superplasticity) and response to heat treatment.

Description: This specification covers an aluminum alloy in the form of sheet, procured to inch/pound dimensions and properties. Primarily for parts requiring a high degree of formability (superplasticity) and response to heat treatment.

Description: Lube-Lok S22-TG is a low energy cure, low VOC graphite based solid film lubricant with an inorganic binder system. This forging lubricant was specially developed for superplastic titanium, aluminum,and magnesium forming applications. Lube-Lok S22-TG helps to save energy and reduce

• Applications: Machine / Gears
• Chemistry / Constituents: Graphite, Molybdenum / Metal Sulphide
• Density / Specific Gravity (@15.6°C, 60°F): 1.02 specific gravity
• Features: Anti-Seize / Thread Compound, Aerosol / Spray