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This SAE Recommended Practice is applicable to gasoline and diesel fuel filters installed on fuel dispensing equipment, mobile or stationary. It describes a set of tests used to characterize the structural integrity, filtration performance, and reaction to water contaminant with fuel dispensing filters.

This SAE Recommended Practice is applicable to gasoline and diesel fuel filters installed on fuel dispensing equipment, mobile or stationary. It describes a set of tests used to characterize the structural integrity, filtration performance, and reaction to water contaminant with fuel dispensing filters.

This SAE Standard defines the requirements for an oil to be used in the SAE HS 806 Oil Filter Test Procedures.

This SAE Standard defines the requirements for an oil to be used in the SAE HS 806 Oil Filter Test Procedures.

This SAE Recommended Practice identifies the necessary dimensional characteristics of filter base mounting configurations to accept the more commonly used lubricating oil and diesel fuel spin-on filters. This SAE Recommended Practice is basically equivalent to the ISO 6415-1981 and ISO 7654-1983 except for differences detailed in the Rationale.

This SAE Recommended Practice identifies the necessary dimensional characteristics of filter-base mounting configurations to accept the more commonly used lubricating oil and diesel fuel spin-on filters. This SAE document is basically equivalent to the ISO 6415-1981 and ISO 7654-1983 except for differences detailed in the Rationale.

This SAE Recommended Practice identifies the necessary dimensional characteristics of filter base mounting configurations to accept the more commonly used lubricating oil and diesel fuel spin-on filters.

This SAE Recommended Practice identifies the necessary dimensional characteristics of filter-base mounting configurations to accept the more commonly used lubricating oil and diesel fuel spin-on filters. This SAE document is basically equivalent to the ISO 6415-1981 and ISO 7654-1983 except for differences detailed in the Rationale.

This SAE Recommended Practice is applicable to coolant filters installed on mobile or stationary equipment. It describes a body of tests used to characterize the stuctural integrity and filtration performance of coolant filters.

This SAE Recommended Practice is applicable to coolant filters installed on mobile or stationary equipment. It describes a body of tests used to characterize the stuctural integrity and filtration performance of coolant filters.

This SAE Recommended Practice is applicable to coolant filters installed on mobile or stationary equipment. It describes a body of tests used to characterize the stuctural integrity and filtration performance of coolant filters.

To determine the ability of a fuel-water separator to separate emulsified or finely dispersed water from fuels.

The purpose of this fuel filter test method is to provide standardized methods for evaluating the performance characteristics of fuel filters by bench test methods. This, combined with data obtained from application tests, may be used to establish standards of performance for filters when tested by these standard methods. Many variations in requirements of filtration to protect fuel supply equipment on engines and variations in operating conditions make it difficult to specify meaningful "in-service" performance standards by which a filter may be judged. By the use of these standard test methods, test conditions are always the same, and comparisons of the laboratory performance of filters may be made with a high degree of confidence. Once the requirements of a particular application are known, performance standards for suitable filters may be established by these test methods, and adequacy of performance of filters for the job may be determined.

This test method describes laboratory testing of final stage fuel filters used to protect engines from abrasive contaminant. It has been developed to provide a standardized method of rating fuel filter performance in terms of flow, pore size, contaminant holding capacity, efficiency, and media migration. Although development of this test method was based on diesel fuel filters, it is applicable to all types of liquid fuel filters used on automotive type internal combustion engines. Typical filter systems, service and space problems, environmental and other special factors which influenced the development of this test method are covered in more detail in “Fuel Filter Test Methods” (SAE Technical Progress Series, Vol. 1). Since the contaminant used in this test is a hard, dry, and abrasive material, the ratings for efficiency and contaminant holding capacity are not necessarily applicable under conditions where a soft, gummy, sludge type contaminant is present.

The purpose of this fuel filter test method is to provide standardized methods for evaluating the performance characteristics of fuel filters by bench test methods. This, combined with data obtained from application tests, may be used to establish standards of performance for filters when tested by these standard methods. Many variations in requirements of filtration to protect fuel supply equipment on engines and variations in operating conditions make it difficult to specify meaningful "in-service" performance standards by which a filter may be judged. By the use of these standard test methods, test conditions are always the same, and comparisons of the laboratory performance of filters may be made with a high degree of confidence. Once the requirements of a particular application are known, performance standards for suitable filters may be established by these test methods, and adequacy of performance of filters for the job may be determined.

To determine the undissolved water removal performance of a fuel/water separator under controlled laboratory conditions, using water droplets.

To determine the undissolved water removal performance of a fuel/water separator under realistic and controlled conditions, using water droplets.

To determine the undissolved water removal performance of a fuel/water separator under controlled laboratory conditions, using water droplets.

To determine the undissolved water removal performance of a fuel/water separator under controlled laboratory conditions, using water droplets.

To determine the undissolved water removal performance of a fuel/water separator under controlled laboratory conditions, using water droplets.