共找到 1478 条与 金属的腐蚀 相关的标准,共 99 页
5.1 Copper corrosion limits provide assurance that difficulties will not be experienced in deterioration of the copper and copper-alloy fittings and connections that are commonly used in many types of utilization, storage, and transportation equipment. 1.1 This test method covers the detection of the presence of components in liquefied petroleum gases which can be corrosive to copper. Note 1: For an equivalent copper strip test applicable to less volatile petroleum products, see Test Method D130. 1.2 The values stated in SI units are to be regarded as standard. 1.2.1 Exception—The values given in parentheses are for information only. 1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use. For specific warning statements, see 7.1, 10.3.1, and Annex A1.
Standard Test Method for Copper Strip Corrosion by Liquefied Petroleum (LP) Gases
Corrosion tests in artificial atmospheres. Accelerated corrosion tests involving alternate exposure to corrosion-promoting gases, neutral salt-spray and drying
Corrosion of metals and alloys — Stress corrosion testing —
Corrosion of metals and alloys — Stress corrosion testing —
Scope is not provided for this standard
Corrosion of metals and alloys -- Guidelines for applying statistics to analysis of corrosion data
Scope is not provided for this standard
Corrosion of metals and alloys -- Accelerated corrosion test for intergranular corrosion susceptibility of austenitic stainless steels
Scope is not provided for this standard
Corrosion tests in artificial atmosphere -- General requirements
Scope is not provided for this standard
Corrosion of metals and alloys -- Guidelines for assessing the significance of stress corrosion cracks detected in service
Scope is not provided for this standard
Corrosion of metals and alloys -- Test method for thermal-cycling exposure testing under high-temperature corrosion conditions for metallic materials
Scope is not provided for this standard
Corrosion of metals and alloys -- Determination of bimetallic corrosion in atmospheric exposure corrosion tests
Method of 65 percent nitric acid test for stainless steels
Outdoor exposure test for protected metals
Laboratory test method of sacrificial anodes for cathodic protection
Test method for solid particle impingement erosion
Methods of corrosion resistance test for metallic coatings
Processes for corrosion protection of magnesium alloys
This International Standard defines two accelerated corrosion test methods to be used in assessing the corrosion resistance of products with metals in environments where there is a significant influence of chloride ions, mainly as sodium chloride from a marine source or by winter road de-icing salt, and of corrosion-promoting gases from industrial or traffic air pollution. This International Standard specifies both the test apparatus and test procedures to be used in executing the accelerated corrosion tests. The methods are especially suitable for assessing the corrosion resistance of sensitive products with metals, e.g. electronic components, used in traffic and industrial environments.
Corrosion tests in artificial atmospheres - Accelerated corrosion tests involving alternate exposure to corrosion-promoting gases, neutral salt-spray and drying
1 Scope This International Standard describes the procedure for determining the critical crevice temperature ( CCT ) for stainless steels under potentiostatic control. The principal advantage of the test is the rapidity with which the CCT can be measured in a single test procedure. The CCT , as determined in this International Standard, can be used as a relative index of performance, for example, to compare the relative performance of different grades of stainless steel. The test described in this International Standard is not intended to determine the temperature at which crevice corrosion will occur in service. This method is not intended for materials with critical pitting temperature (CPT) values below 20 °C measured in accordance with ISO 17864, when measured in the same test solution and at the same potential
Corrosion of metals and alloys. Determination of the critical crevice temperature (CCT) for stainless steels under potentiostatic control
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