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Standard

J826/3 CAD Model of Legs and Back Hardware for SAE J826 3-D H-Point Machine

2014-10-16
WIP
J826/3
This document describes the CAD model data of legs and back hardware available from SAE for the HPM-1 three-dimensional H-point machine. The elements of the CAD model include the feet, lower and thighs as well as headroom probe and t-bar. Also included are datum points and lines, and calibration references. The intended purpose for this information is to provide a CAD reference for design and benchmarking as well as a calibration reference for the physical HPM-1 audits. The content and format of the data files that are available are also described. The actual CAD model files are included with this product and are provided in the following formats: CATIA v4 (without parametrics), CATIA v5 (without parametrics), IGES, and STEP.
Standard

Information Report for Hoists used with an Unoccupied Mobility Device

2010-02-02
WIP
J2930
This SAE Information Report establishes a uniform procedure for assuring the manufactured quality, installed utility and performance of automotive hoists designed to load and unload an unoccupied Mobility Device into or upon a personally licensed vehicle.
Standard

Air Conditioning Service Procedures for Heavy duty and Off-Highway work Machines using R-134a refrigerant

2016-09-12
WIP
J3126
This recommended practice provides technicians with safe and efficient techniques and general equipment recommendations for servicing Mobile Air Conditioning (MAC) systems in heavy duty and off-highway work machines. Presently, R-134a is the only approved refrigerant for use in mobile heavy duty and off-highway equipment and therefore this document primarily covers the servicing of R-134a systems. Since the technician may encounter other refrigerants a brief explanation on the identification safe handling of each refrigerant will be introduced.
Standard

Ambient Temperature Fixed Orifice Fueling

2016-11-21
WIP
J2601/4
SAE J#### establishes the protocol and process limits for hydrogen fueling of light duty vehicles when the fuel delivery temperature is not pre-cooled, so called “ambient fueling” designated by Table 1 of SAE J2601-2014. These process limits (including the fuel delivery temperature, the maximum fuel flow rate, the rate of pressure increase and the ending pressure) are affected by factors such as ambient temperature, fuel delivery temperature and initial pressure in the vehicle’s compressed hydrogen storage system. SAE J#### establishes standard fueling protocols based on a series of design cases representing fueling system engineering categories. These categories are intended to provide performance targets which allow decreasing fueling times relative to the most simple design case. Similar to the table and formula based approaches of SAE J2601-2014, this approach establishes a minimum performance criteria leaving open options for innovation to decrease fueling times.
Standard

Application Guideline for Use of Hydrogen Quality Specification

2014-04-15
WIP
J2719/1
The purpose of this TIR is to provide guidance for minimizing test requirements based on SAE J2719 while still ensuring fuel quality at hydrogen fueling stations for PEM fuel cell vehicles (FCVs) and ICEVs (to the extent that has been determined). This document is intended to be used by both industry and regulators for routine (or periodic) monitoring of filling station performance.
Standard

Standard Practice for Habitability

2018-08-14
WIP
SAE1007
The Habitability standard practice identifies the recommended approach for conducting Habitability activities in support of system acquisition programs. This standard covers all aspects of the physical environment that people inhabit, for work, or other purpose. It includes adequate space and environmental/temperature controls and, if appropriate, requirements for personnel services (e.g., medical, dental and mess) and living conditions (e.g., berthing and personal hygiene) that have a direct impact on meeting or sustaining system performance/effectiveness or that have such an adverse impact on safety, health, comfort, quality of life and morale that recruitment or retention is degraded. It includes analysis, modeling and simulation, design, and verification of Habitability requirements and processes.
Standard

Design For Maintainer (DFM) Process Standard

2018-08-14
WIP
SAE1009
The Design for Maintainer (DFM) standard identifies the recommended approach for conducting Design for Maintainability activities in support of system acquisition programs. The standard identifies general requirements and processes of a successful DFM program during concept and design development to ensure the lowest possible ownership costs. This standard provides specific detailed contractor requirements for DFM activities inclusive of the Human Engineering domain. The standard is consistent with MIL-STD-46855 and SAE 6906 Human Systems Integration. And DFM standard practices support performance of activities in coordination with other associated disciplines such as maintainability, supportability, and integrated logistics.
Standard

Standard Practice for Force Protection and Survivability (FP&S)

2018-08-14
WIP
SAE1008
The Protection and Survivability (FP&S) standard practice identifies the recommended approach for conducting FP&S activities in support of system acquisition programs. This standard covers FP&S processes throughout system conceptualization, design, development, verification, production, use and disposal. FP&S includes analysis, modeling and simulation, design and verification of system-related survivability characteristics and processes designed to protect personnel from direct threats and accidents, including primary and secondary effects from the events.
Standard

Standard Practice for Personnel

2018-08-14
WIP
SAE1006
The Personnel standard practice identifies the recommended approach for conducting Personnel activities in support of system acquisition programs. This standard covers Personnel processes throughout system conceptualization, design, development, verification, production, use and disposal. Personnel addresses skills, grades, aptitudes, physical attributes and education and training backgrounds of military and civilian personnel required to operate, maintain, train and support the system equipment and associated support equipment and facilities in its operational environment. It includes analysis, modeling and simulation, design support and verification of Personnel estimates and requirements.
Standard

Off-Road Self-Propelled Work Machines Operator enclosure environment Part 4:Heating, ventilating and air conditioning (HVAC) test method and performance

2014-09-16
WIP
J3078/4
J3078/4 specifies a uniform test method for measuring the contribution to operator environmental temperature provided by a heating, ventilating and air conditioning system operating in a specific ambient environment. The method might not determine the complete climatic environment of the operator since this is also affected by heat load from sources other than those on the machine, for example solar heating. J3708/6 is to be used in conjunction with J3078/4 to determine more accurately the complete heat loading on the operator enclosure. Minimum performance levels for the machine’s operator enclosure heating, ventilating and air conditioning systems are established in J3708/4.
Standard

Camera Monitor Systems Test Protocols and Performance Requirements

2017-09-13
WIP
J3155
This SAE Recommended Practice provides test protocols with performance requirements for Camera Monitor Systems to replace existing statutorily required inside and outside rear-view mirrors for US market road vehicles. This practice expands specific technical content while retaining harmonization with the FMVSS 111 Rear Visibility standard, and other international standards. This is accomplished by defining required roadway fields of view as specific fields of view (FOV) displayed inside the vehicle. Specific testing protocols and/or specifications are added to enhance ease of use using straightforward language and any specifications are intended to be independent of different camera and display technologies unless otherwise explicitly stated.
Standard

Techniques for measuring the properties of lithium and lithium-ion battery anode active materials.

2017-10-18
WIP
J3159
This SAE RP provides a set of test methods and practices for the characterization of the properties of lithium battery anode active materials. Lithium battery anode active materials can be grouped in one of the following categories: lithium intercalation materials (including graphite, Li4Ti5O12); lithium alloying materials (including Sn, Si compounds/composites); lithium deposition materials (lithium metal). For the purposes of this document, material properties will be examined for particulate anode active materials (graphite, Li4TiO5, Sn compounds, Si compounds) and for metallic films (lithium metal). It is not within the scope of this document to establish criteria for the test results, as this is usually established between the vendor and customer It is not within the scope of this document to examine the electrochemical properties of anode materials since these are influenced by electrode design.
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