This document standardizes the design of connector blocks used for joining SAE J518-1/ISO 6162-1 (Code 61) flange heads with other SAE J518-1/ISO 6162-1 (Code 61) flange heads with straight, elbow, and tee geometries. The blocks specified in this document are designed to provide for very compact installations. As a result, the tap depths specified in this document do not conform to those specified in SAE J518-1/ISO 6162-1 to allow for a minimal bend radius in the elbow and tee configurations. This document specifies both inch and metric configurations
This SAE information report is intended to provide design guidance in the selection of stainless steel tubing produced from SAE 304/304L stainless material as defined by SAE J3127, J3128, J3129, and J3135.
This SAE Standard presents the minimum requirements for nonmetallic tubing with one or more layers manufactured for use in exhaust gas recirculation systems Requirements in this document apply to monowall tubing (one layer construction) and multilayer tubing. The tube construction can have a straight wall configuration, a wall that is convoluted or corrugated, or a combination of each.
This SAE Standard presents the minimum requirements for nonmetallic tubing with one or more layers manufactured for use as liquid carrying DEF lines for diesel engine selective catalyst reduction (SCR) after-treatment systems. Requirements in this document also apply to monowall tubing (one layer construction) and multi-layer constructions. Unless otherwise agreed to by suppliers and users this document applies to tubing for any portion of the DEF system that might operate continuously at temperatures above –40 °C and below 120 °C or for high temperature systems up to 160 °C. Maximum working pressure of 1140 kPa absolute. The tubing can be used at the peak intermittent exterior temperature up to 140 °C or 180 °C. Tubing systems supplied to this application are usually required to thaw from the frozen condition using various heating methods in operation complying with EPA requirements.
This SAE Standard presents the minimum requirements for nonmetallic tubing with one or more layers manufactured for use as pneumatic tubing in automotive air suspension lines. Requirements in this document also apply to monowall tubing (one layer construction) or multi-layer (MLT) constructions. Unless otherwise agreed to by suppliers and users this document applies to tubing for any portion of the fuel system that might operate continuously at temperatures above –40°C and below 90°C and up to a maximum working gage pressure of 1500 kPa. The tubing can be used at the peak intermittent temperature up to 115 °C with peak dynamic pressures of up to 2000 kPa. This document can apply to systems that operate at higher pressures and/or are exposed to higher temperatures with appropriate changes to the acceptance criteria within this document.
This SAE Standard covers nonreinforced, extruded, plastic tubing intended primarily for use as fluid lines for automotive windshield washer systems which conform to the requirements of SAE J942.
This SAE Aerospace Information Report is to supplement content from ARP4163 pertaining to error analysis on the use of multiple drive adapter applications, on both vertical and horizontal balance machines. This new Aerospace Information Report will serve as a practical resource that offers guidance to the Machine Operator and Process Engineer.
to provide industry with a reference document highlighting the necessary design considerations and configuration option for an aircraft fully enclosed test facility (Hush House).
The goal of this new document is to provide criteria for managing, auditing, and controlling the use of rotating balancing tooling and associated support tools. A variety of subjects will be addressed including serialization and marking requirements, critical inspection criteria, performance tracking through tooling compensation trend analysis, handling of gage standards (rotor simulators, master blades, dummy blades, etc.), recommendations for periodic and preventive maintenance intervals, test recommendations to evaluate rotating tooling performance, requirements for traceable measures (such as torques, runouts, eccentricity, etc.), repeatability characterization, and criteria for return to service.
A bolt-load retention (BLR) test is a practical test to determine the bolt load of a fastener joint with time and at given temperatures. There are three types of BLR tests described in this standard, namely general-purpose test, design-purpose test, and screening material test. A general-purpose BLR test may be used for screening materials, while a design-purpose BLR test is usually used to verify the BLR behavior of a specific joint. The screening material test is an example of the general-purpose test for typical automotive applications.
A bolt-load retention (BLR) test is a practical test to determine the bolt load of a fastener joint with time and at given temperatures. There are three types of BLR tests described in this standard, namely general-purpose test, design-purpose test, and screening material test. A general-purpose BLR test may be used for screening materials, while a design-purpose BLR test is usually used to verify the BLR behavior of a specific joint. The screening material test is an example of the general-purpose test for typical automotive applications.
This SAE Standard specifies: a test method for assessing the lubricating property of diesel fuels including those which may contain a lubricity enhancing additive, and the performance criteria necessary to ensure reliable operation of diesel fuel injection equipment with respect to fuel lubrication of such equipment. It applies to fuel used in diesel engines.
This document summarizes published measurement data and reference values for marker chemical compounds listed in ARP4418 (see 2.1.1) potentially found in aircraft engine bleed air.