21.060.99 其他紧固件 标准查询与下载

GB/T 18981-2008 射钉

本标准规定了射钉的结构与代码、要求、试验方法、检验规则、标志、包装、运输、贮存等内容。 本标准适用于射钉的设计、生产及检验。

Fastener

GB/T 18981-2003 射钉

本标准规定了射钉的定义、代号、要求、测试方法、质量评定等内容。本标准适用于射钉的设计、生产、验收、销售和使用。

Fastener

ASTM E1512-01(2023) 粘结锚的粘结性能试验的标准试验方法

Standard Test Methods for Testing Bond Performance of Bonded Anchors

BS EN ISO 3506-5:2023 紧固件 耐腐蚀不锈钢紧固件的机械性能 用于高温应用的特殊紧固件（也包括镍合金紧固件）

Fasteners. Mechanical properties of corrosion-resistant stainless steel fasteners - Special fasteners (also including fasteners from nickel alloys) for high temperature applications

ASTM D5764-23a 木材和木基产品暗销承载强度评定的标准试验方法

1.1 This test method provides the basic procedure for evaluating dowel-bearing strength of wood and wood-based products. The bearing test results are used to determine the static load resistance and deformation characteristics of connections in wood and wood-base products resulting from the application of a load transmitted by a fastener inserted into a predrilled hole, or driven without drilling. Methods are given for preparing specimens with predrilled holes larger than the fastener diameter and specimens with holes produced by inserting fasteners in holes smaller than the fastener diameter. The methods apply to fasteners such as dowels, bolts, nails, spikes, drift pins, screws, lag screws, and staples. 1.2 This test method also provides the basis for determining the compression behavior of wood products beneath a laterally loaded fastener where the thickness of the product and the diameter of the fastener are such that minimal bending of the fastener occurs during testing. 1.3 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.4 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Test Method for Evaluating Dowel-Bearing Strength of Wood and Wood-Based Products

ASTM D5764-23 评估木材和木制品的榫钉承载强度的标准试验方法

Standard Test Method for Evaluating Dowel-Bearing Strength of Wood and Wood-Based Products

ASTM A1078/A1078M-22 混凝土路面用环氧涂层钢暗销标准规范

1.1 This specification covers plain steel dowel bars with protective fusion-bonded epoxy coating for use in concrete pavements. 1.2 This specification is applicable for orders in either inch-pound units (as Specification A1078) or in SI units (as Specification A1078M). 1.3 The values stated in either inch-pound or SI units are to be regarded separately as standard. Within the text, the SI units are shown in brackets. The values stated in each system may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with this specification. 1.4 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. NOTE 1—The coating applicator is identified throughout this specification as the manufacturer. 1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Specification for Epoxy-Coated Steel Dowels for Concrete Pavement

T/KCH 003-2022 工程机械线束截面测试技术要求

工程机械行业是我国装备工业的重要组成部分，其产品类别包括挖掘机械、铲土运输机械、工程起重机械等十八大类之多，可以说，只要有工程建设，就离不开工程机械。  自从工程机械出现以来，随着技术的进步和经营模式的不断变化，该行业已从创业期、形成期到了发展期，尤其近几年来，全球工程机械行业始终处于平稳增长状态，且行业的格局短期内也不会发生根本性的改变，工程机械行业产业规模从“十二五”末（2015 年）的 4570 亿元，发展到 2020 年的超过 7000 亿元，平均每年增长约 8.96%。“十三五” 期间，工程机械行业深入实施创新驱动发展战略，在高端、智能产品核心技术研发和应用推广方面不断取得新突破，充分满足了国民经济建设重大工程的需要，涌现出一大批科研成果，成为行业持续增长的重要动力。  工程机械“走出去”，一方面拓展海外市场，为企业业绩增长提供新动力；另一方面，产品国际化有助于提升企业知名度，扩大品牌效益，同时对于上市公司来讲，品牌效益能够给公司带来更高的估值溢价。在“一带一路”战略持续推进下，由于有效激活了沿线国家的工程机械市场需求，我国工程机械产业，紧紧抓住这一千载难逢的历史机遇，获得了更多 可持续发展的机会，出口额持续增加，大大促进了产能和品牌影响力的快速增长。  对于某一具体的市场，则一定是细分、专业化，需要聚焦、研究、分析特定的用户群体，满足他们的需求，打造独有的竞争力，亦即全球化布局，精细化深耕。  首先，需要未来的工程机械拥有智慧“大脑”，实现推土机、挖掘机、装载机、压路机等的电子化、信息化，并逐步地从局部自动化过渡到全面自动化，向着远距离操纵和无人驾驶的趋势发展，最终达到完全智能化的作业机器人目标。  其次，需要依托 5G 技术的发展，解决影响集群化施工最大的实时控制问题，对于工程机械要完成这些复杂的任务，没有精确的实时控制是不可能进行的。同时，也只有在 5G 时代才使得在网络上各个点的时间同步能满足工程施工的要求，这在 4G 时代是不行的，因为 4G 的时延最少为 30ms，而5G 的时延能达到 1ms。  综上所述，智能化是未来发展方向，依托物联网（IoT）和数字化技术，机械设备将逐渐展现机器的智慧，实现自动化、智能化操控，谁掌握了核心技术，谁就掌握了市场话语权。  工程机械电气系统也将逐渐向着自动化、智能化操控靠拢，越来越多的电气元件，复杂的控制系统提高了电气系统设计及装配要求，线束作为电气系统的“血管”对电气系统功能的实现具有重要的作用，工程机械线束的质量水平对整机的操纵性、稳定性，甚至对整机安全性都起着关键性的作用。  工程机械线束超声波焊接作为线束生产加工过程中的重要工序，超声波焊接的质量直接决定着整车电流、信号传递的稳定性，因此掌握一套弹性有效的超声波焊接技术规范系统尤为重要。  超声波焊接是利用在两个待焊工件接触面所产生的摩擦热能来使金属熔化。热能来自一定压力下，一个工件在另一个表面以一定的位移或振幅往复的移动。一旦达到预期的焊接程度，振动就会停止，同时仍旧会有一定的压力施加于两个工件上，使刚刚焊接好的部分冷却、固化，从而形成紧密地结合。通过超声波自动焊接机能迅速大批量制造出一致性的产品，但也会导致因为部分失误制造出大量的不良品，而线束加工企业建立一套超声波焊接规范技术标准则是重中之重。  超声波焊接拉拔力：拉拔力是为确保工程机械行驶过程中，电线与电线之间连接状态的满足一定的抗拉强度，拉拔力测试必须是脱离绝缘外皮的测试，这有利于生产过程的控制保证电线的良好焊接。 只有符合高标准拉力的线束，才能有高质量的线束。  《工程机械线束超声波焊接技术要求》的提出，是指为了在一定范围内获得最佳秩序，按照规定的程序经协商一致制定，为各种焊接生产或其结果提供规则、指南或特性，供共同使用和重复使用的一种文件。日本著名质量管理专家石川馨教授在总结日本质量管理经验时说：“没有标准化的进步，就没有质量的成功”。所谓标准化，就是标准的制定、执行及完善的过程，具体包括技术标准化、管理标准化和工作标准化。  高标准才有高质量，早已成为行业的共识，努力成为一流企业，努力成为行业标准的制定者，争取更多的话语权和主动权，才能在未来的高端工程机械线束行业占有一席之地。只要我们全体一起努力，我国线束企业一定能够培育出自己的核心技术，树立自己的高端品牌，并能在全新市场格局中重塑行业，引领未来。

Technical requirements for cross section test of construction machinery harness

T/KCH 004-2022 工程机械线束喷码技术标准

工程机械行业是我国装备工业的重要组成部分，其产品类别包括挖掘机械、铲土运输机械、工程起重机械等十八大类之多，可以说，只要有工程建设，就离不开工程机械。  自从工程机械出现以来，随着技术的进步和经营模式的不断变化，该行业已从创业期、形成期到了发展期，尤其近几年来，全球工程机械行业始终处于平稳增长状态，且行业的格局短期内也不会发生根本性的改变，工程机械行业产业规模从“十二五”末（2015 年）的 4570 亿元，发展到 2020 年的超过 7000 亿元，平均每年增长约 8.96%。“十三五” 期间，工程机械行业深入实施创新驱动发展战略，在高端、智能产品核心技术研发和应用推广方面不断取得新突破，充分满足了国民经济建设重大工程的需要，涌现出一大批科研成果，成为行业持续增长的重要动力。  工程机械“走出去”，一方面拓展海外市场，为企业业绩增长提供新动力；另一方面，产品国际化有助于提升企业知名度，扩大品牌效益，同时对于上市公司来讲，品牌效益能够给公司带来更高的估值溢价。在“一带一路”战略持续推进下，由于有效激活了沿线国家的工程机械市场需求，我国工程机械产业，紧紧抓住这一千载难逢的历史机遇，获得了更多 可持续发展的机会，出口额持续增加，大大促进了产能和品牌影响力的快速增长。  对于某一具体的市场，则一定是细分、专业化，需要聚焦、研究、分析特定的用户群体，满足他们的需求，打造独有的竞争力，亦即全球化布局，精细化深耕。  首先，需要未来的工程机械拥有智慧“大脑”，实现推土机、挖掘机、装载机、压路机等的电子化、信息化，并逐步地从局部自动化过渡到全面自动化，向着远距离操纵和无人驾驶的趋势发展，最终达到完全智能化的作业机器人目标。  其次，需要依托 5G 技术的发展，解决影响集群化施工最大的实时控制问题，对于工程机械要完成这些复杂的任务，没有精确的实时控制是不可能进行的。同时，也只有在 5G 时代才使得在网络上各个点的时间同步能满足工程施工的要求，这在 4G 时代是不行的，因为 4G 的时延最少为 30ms，而5G 的时延能达到 1ms。  综上所述，智能化是未来发展方向，依托物联网（IoT）和数字化技术，机械设备将逐渐展现机器的智慧，实现自动化、智能化操控，谁掌握了核心技术，谁就掌握了市场话语权。  工程机械电气系统也将逐渐向着自动化、智能化操控靠拢，越来越多的电气元件，复杂的控制系统提高了电气系统设计及装配要求，线束作为电气系统的“血管”对电气系统功能的实现具有重要的作用，工程机械线束的质量水平对整机的操纵性、稳定性，甚至对整机安全性都起着关键性的作用。  工程机械线束超声波焊接作为线束生产加工过程中的重要工序，超声波焊接的质量直接决定着整车电流、信号传递的稳定性，因此掌握一套弹性有效的超声波焊接技术规范系统尤为重要。  超声波焊接是利用在两个待焊工件接触面所产生的摩擦热能来使金属熔化。热能来自一定压力下，一个工件在另一个表面以一定的位移或振幅往复的移动。一旦达到预期的焊接程度，振动就会停止，同时仍旧会有一定的压力施加于两个工件上，使刚刚焊接好的部分冷却、固化，从而形成紧密地结合。通过超声波自动焊接机能迅速大批量制造出一致性的产品，但也会导致因为部分失误制造出大量的不良品，而线束加工企业建立一套超声波焊接规范技术标准则是重中之重。  超声波焊接拉拔力：拉拔力是为确保工程机械行驶过程中，电线与电线之间连接状态的满足一定的抗拉强度，拉拔力测试必须是脱离绝缘外皮的测试，这有利于生产过程的控制保证电线的良好焊接。 只有符合高标准拉力的线束，才能有高质量的线束。  《工程机械线束超声波焊接技术要求》的提出，是指为了在一定范围内获得最佳秩序，按照规定的程序经协商一致制定，为各种焊接生产或其结果提供规则、指南或特性，供共同使用和重复使用的一种文件。日本著名质量管理专家石川馨教授在总结日本质量管理经验时说：“没有标准化的进步，就没有质量的成功”。所谓标准化，就是标准的制定、执行及完善的过程，具体包括技术标准化、管理标准化和工作标准化。  高标准才有高质量，早已成为行业的共识，努力成为一流企业，努力成为行业标准的制定者，争取更多的话语权和主动权，才能在未来的高端工程机械线束行业占有一席之地。只要我们全体一起努力，我国线束企业一定能够培育出自己的核心技术，树立自己的高端品牌，并能在全新市场格局中重塑行业，引领未来。

Technical requirements for wire harness jet coding

BS ISO 3506-5:2022 紧固件 耐腐蚀不锈钢紧固件的机械性能 用于高温应用的特殊紧固件（也包括镍合金紧固件）

1   Scope This document specifies the mechanical and physical properties of bolts, screws, studs and nuts, with coarse pitch thread and fine pitch thread, made of corrosion-resistant stainless steels (i.e. martensitic stainless steels and precipitation hardening austenitic stainless steels ) and nickel alloys, intended for use at high temperatures up to 800 °C. Tests in accordance with Clause 9 are performed at the ambient temperature range of 10 °C to 35 °C, and other tests can be performed at higher temperatures, see Clause 10. NOTE Fasteners specified in this document are also suitable when used at low temperatures, typically down to -50 °C. For more information, see ISO 3506‑6. The term “fasteners” is used in this document when bolts, screws, studs and nuts are considered all together. ISO 3506‑6 provides general rules and additional technical information on suitable stainless steels and nickel alloys as well as their properties. This document applies to fasteners: — with ISO metric thread in accordance with ISO 68‑1, — with diameter/pitch combinations in accordance with ISO 261 and ISO 262, — with coarse pitch thread M3 to M39, and fine pitch thread M8×...

Fasteners. Mechanical properties of corrosion-resistant stainless steel fasteners - Special fasteners (also including fasteners from nickel alloys) for high temperature applications

ASTM F2956-22 滞留空心金属系统用锚固系统的标准试验方法

1.1 These test methods cover anchor systems used for the installation of fixed detention hollow metal vision systems and door assemblies of various materials and types of construction. These anchor systems are used to install fixed hollow metal vision systems and door assemblies in wall openings in detention and correctional institutions designed to incarcerate inmates. 1.2 Anchor systems individual components investigated under these test methods include detention security hollow metal frames, frame anchoring, security glazing, panels, and removable glazing stops. 1.3 These test methods are designed to test the capability of anchor systems used to install a fixed detention hollow metal vision system or door assembly to prevent, delay, and frustrate escape; to limit or control access to unauthorized or secured areas; and prevent passage of contraband. 1.4 These test methods apply primarily to anchor systems used to install detention hollow metal vision systems or door assemblies between secure areas generally found inside a detention/correctional facility such as: day rooms, control rooms, cells, and sally ports. These test methods are applicable to anchor systems used to install vision systems and door assemblies other than hollow metal, provided testing and reporting procedures are followed. 1.5 The values stated in inch-pound units are to be regarded as the standard. The values given in parentheses are for information only. 1.6 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Test Methods for Anchor Systems Used for Detention Hollow Metal Systems

ISO 3506-5:2022 紧固件.耐腐蚀不锈钢紧固件的机械性能.第5部分:高温用特殊紧固件（也包括镍合金紧固件）

This document specifies the mechanical and physical properties of bolts, screws, s tuds and nuts, with coarse pitch thread and fine pitch thread, made of corrosion-resistant stainless s teels (i.e. martensitic stainless steels and precipitation hardening aus tenitic stainless steels) and nickel alloys, intended for use at high temperatures up to 800 °C . Tests in accordance with Clause 9 are performed at the ambient temperature range of 10 °C to 35 °C , and other tes ts can be performed at higher temperatures, see Clause 10. NO TE Fas teners specified in this document are also suitable when used at low temperatures, typically down to -50 °C . For more information, see ISO 3506 - 6 . The term “fasteners” is used in this document when bolts, screws, s tuds and nuts are considered all together. nickel alloys as well as their properties . This document applies to fasteners: — with ISO metric thread in accordance with ISO 68-1 , — with diameter/pitch combinations in accordance with ISO 261 and ISO 262 , — with coarse pitch thread M3 to M39, and fine pitch thread M8×1 to M39×3 , — with thread tolerances in accordance with ISO 965-1 and ISO 965-2 , and — of any shape but with full loadability. Stainless steel and nickel alloy fas tener s ymbols can be used for sizes outside the diameter limits of this document (i.e. for bolts, screws and s tuds with d < 3 mm or d > 39 mm and for nuts with D < 5 mm or D > 39 mm) , provided that all applicable chemical, mechanical and physical requirements are met. Fas teners with reduced loadability (i.e. thin nuts and bolts, screws and studs with head or unthreaded shank weaker than the threaded shank) are not dealt with in this document. This document does not specify requirements for functional properties such as: — torque/clamp force properties, — shear s trength, — fatigue resistance, — weldability, 1 or — properties ofbolted joints and fasteners in high temperature environment (see test methods at high temperature for fasteners in Clause 10).

Fasteners — Mechanical properties of corrosion-resistant stainless steel fasteners — Part 5: Special fasteners (also including fasteners from nickel alloys) for high temperature applications

T/KCH 010-2021 工程机械线束拉力技术要求

工程机械电气系统也将逐渐向着自动化、智能化操控靠拢，越来越多的电气元件，复杂的控制系统提高了电气系统设计及装配要求，线束作为电气系统的“血管”对电气系统功能的实现具有重要的作用，工程机械线束的质量水平对整机的操纵性、稳定性，甚至对整机安全性都起着关键性的作用。 汽车线束端子压接作为线束生产加工过程中的重要工序，端子压接质量直接决定着整车电流、信号传递的稳定性，因此掌握一套弹性有效的端子压接技术规范系统尤为重要。 “压接”是指通过施加一定的机械外力，使两种材料（导体与端子上的导体压接片，绝缘体与端子上的绝缘体压接片）紧密结合，从而达到电性导通牢固结合的目的。高品质的压接具有较低的接触阻抗，牢固的紧密性，压接具有连续性也有重复性。通过采用连锁端子和自动压接机能迅速大批量制造出一致性的产品，但也会导致因为部分失误制造出大量的不良品，而线束加工企业建立一套端子压接规范技术标准则是重中之重。 端子压接拉拔力：拉拔力是为确保车辆行驶过程中，电线与端子之间连接状态的满足一定的抗拉强度，拉拔力测试必须是脱离绝缘外皮的测试，这有利于生产过程的控制保证端子的良好压接。只有符合高标准拉力的线束，才能有高质量的线束。

Technical requirements for wire harness tension of construction machinery

DIN EN 17490:2021 从螺纹通道中确定螺钉拔出力；德文版 EN 17490:2021

This document provides a test method for determining the bearing capacity (pull out force) of a connection consisting of a screw in a screw thread channel, which cannot be calculated in accordance with current codes or conventional calculations. This document can be applied to sc

Determination of screw pull out forces from screw thread channels; German version EN 17490:2021

LST EN 17490-2021 从螺纹通道中确定螺钉拔出力

Determination of screw pull out forces from screw thread channels

UNI EN 17490-2021 从螺纹通道中确定螺钉拔出力

Determination of screw pull out forces from screw thread channels

BS EN 17490:2021 螺纹通道中螺钉拔出力的测定

Determination of screw pull out forces from screw thread channels

DS/EN 17490:2021 从螺纹通道中确定螺钉拔出力

Determination of screw pull out forces from screw thread channels

EN 17490:2021 从螺纹通道中确定螺钉拔出力

Determination of screw pull out forces from screw thread channels

ASTM D7142-05(2021) 插销环连接的卡扣固定强度的标准试验方法

1.1 This test method covers the determination of the holding strength of a prong-ring to the socket or stud of a snap fastener using a tensile testing machine (Option 1) or a manual test stand and force-measuring gage (Option 2). 1.2 This test method is applicable to prong-ring type snap fasteners in garments or to be attached to fabrics intended for use in apparel (see Annex A1). 1.3 The values stated in either SI units or inch-pound units are to be regarded separately as standard. Within the text, the inch-pound units are shown in parentheses. The values stated in each system are not exact equivalents; therefore, each system shall be used independently of the other. Combining values from the two systems may result in non-conformance with the standard. 1.4 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, health, and environmental practices and determine the applicability of regulatory limitations prior to use. 1.5 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Test Method for Holding Strength of Prong-Ring Attached Snap Fasteners