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4.1 These test methods are designed to compare gasket materials under controlled conditions and to provide a precise measure of leakage rate. 4.2 These test methods are suitable for measuring leakage rates as high as 6 L/h and as low as 0.3 mL/h. In many cases, "zero" leakage may not...
This SAE Recommended Practice presents information which is intended as a guide for proper designing, selection, application, and servicing of liquid, formed-in-place gasket (FIPG) materials.
4.1 These test methods are designed to compare gasket materials under controlled conditions and to provide a precise measure of leakage rate. 4.2 These test methods are suitable for measuring leakage rates as high as 6 L/h and as low as 0.3 mL/h. In many cases, "zero" leakage may not...
These test methods are designed to compare gasket materials under controlled conditions and to provide a precise measure of leakage rate. These test methods are suitable for measuring leakage rates as high as 6 L/h and as low as 0.3 mL/h. In many cases, "zero" leakage may not be...
1.1 This guide covers the use of lock-strip gaskets in compliance with Specification C 542 in walls of buildings not over 15 from a vertical plane. The prime performance considerations are weathertightness against air and water infiltration, and structural integrity under wind loads....
1.1 This guide covers the use of lock-strip gaskets in compliance with Specification C 542 in walls of buildings not over 15 from a vertical plane. The prime performance considerations are weather tightness against air and water infiltration, and structural integrity under wind loads....
This European standard defines a calculation method for bolted, gasketed circular flange joints. Its purpose is to ensure structural integrity and control of leaktightness.
This guide covers the use of lock-strip gaskets in compliance with Specification C542 in walls of buildings not over 15° from a vertical plane. The prime performance considerations are weathertightness against air and water infiltration, and structural integrity under wind loads. Included...
1.1 These test methods cover the determination of the effect on physical properties of nonmetallic gasketing materials after immersion in test fluids. The types of materials covered are Type 1, Type 2, Type 3, and Type 7 as described in Classification F104. These test methods are not...
1.1 This practice measures the compression properties of a gasket material by measuring gasket deflection while it is subjected to an increasing compressive load until a target load is reached. The load and change in thickness are recorded at a defined loading rate as a function of...
1.1 These test methods cover the determination of the effect on physical properties of nonmetallic gasketing materials after immersion in test fluids. The types of materials covered are Type 1, Type 2, Type 3, and Type 7 as described in Classification F 104. These test methods are not...
1.1 This test method covers the determination of the flexibility of non-metallic gasket materials. It is designed for testing specimens cut from sheet goods or from the gasket in the finished form, as supplied for commercial use. Materials normally classified as rubber...
1.1 These test methods cover the determination of the effect on physical properties of nonmetallic gasketing materials after immersion in test fluids. The types of materials covered are Type 1, Type 2, Type 3, and Type 7 as described in Classification F104. These test methods are not...
This test method covers the determination of the flexibility of non-metallic gasket materials. It is designed for testing specimens cut from sheet goods or from the gasket in the finished form, as supplied for commercial use. Materials normally classified as rubber compounds...
