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1.[标准] 铝冶炼行业安全生产风险管控与隐患治理规范发布单位:
中国-河南省地方标准(CN-DB41)
标准状态:现行
标准号:DB41/T 2409-2023
发布时间:2023-04-28
中标分类:H09 冶金 - 冶金综合 - 卫生、安全、劳动保护
国标分类:77.020 冶金 - 金属生产
实施时间:2023-07-27
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2.[标准] 熔模铸件缺陷分类及命名发布单位:
中国-国家标准计划(CN-PLAN)
标准状态:正在起草
标准号:20230693-T-469
发布时间:2023-08-06
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间: -
3.[标准] 铝加工深井铸造安全生产管理平台建设指南发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/FSAS 72-2023
发布时间:2023-06-18
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2023-06-19
摘要: 范围:本文件适用于铝加工深井铸造安全生产管理平台的设计和建设,其它铝加工工艺可参考执行;主要技术内容:本文件提供了铝加工深井铸造安全生产管理平台的术语和定义、系统整体架构、 建设内容、调试及运行维护的建设指导建议 -
4.[标准] 五金配件加工表面处理规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/SXS 057-2023
发布时间:2023-12-29
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2023-12-29
摘要: 主要技术内容:本文件规定了五金配件加工表面处理规范的设备要求、溶剂要求、操作流程以及注意事项。本文件适用于五金配件加工表面处理规范 -
5.[标准] 铸造企业规范条件发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CFA 0310021-2023
发布时间:2023-03-31
中标分类:J31 机械 - 加工工艺 - 铸造
国标分类:77.020 冶金 - 金属生产
实施时间:2023-03-31
摘要: 主要技术内容:本文件规定了铸造企业的建设条件与布局、企业规模、生产工艺、生产装备、质量控制、能源消耗、环境保护、安全生产及职业健康和监督管理。本文件适用于《国民经济行业分类》中C 3391 黑色金属铸造和 C 3392 有色金属铸造企业(含主机厂内铸造车间) -
6.[标准] 柔性石墨金属缠绕垫片发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/SHDSGY 027-2023
发布时间:2023-03-22
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2023-03-22
摘要: 主要技术内容:本文件规定了柔性石墨金属缠绕垫片的术语和定义、技术要求、试验方法、检验规则、标志、包装、运输和贮存。本文件适用于各种介质的管法兰、压力容器法兰、摩托车、汽车排气管静密封的柔性石墨金属缠绕垫片 -
金属定向能量沉积的标准指南
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM F3187-16(2023)
发布时间:2023-12-15
中标分类:-
国标分类:25.160.10 焊接、钎焊和低温焊 - 焊接工艺
77.020 冶金 - 金属生产
实施时间:摘要: 1.1Directed Energy Deposition (DED) is used for repair, rapid prototyping and low volume part fabrication. This document is intended to serve as a guide for defining the technology application space and limits, DED system set-up considerations, machine operation, process documentation, work practices, and available system and process monitoring technologies.1.2DED is an additive manufacturing process in which focused thermal energy is used to fuse materials by melting as they are being deposited.1.3DED Systems comprise multiple categories of machines using laser beam (LB), electron beam (EB), or arc plasma energy sources. Feedstock typically comprises either powder or wire. Deposition typically occurs either under inert gas (arc systems or laser) or in vacuum (EB systems). Although these are the predominant methods employed in practice, the use of other energy sources, feedstocks and atmospheres may also fall into this category.1.4The values stated in SI units are to be regarded as standard. All units of measure included in this guide are accepted for use with the SI.1.5This 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.1.6This 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. ====== Significance And Use ======5.1This guide applies to directed energy deposition (DED) systems and processes, including electron beam, laser beam, and arc plasma based systems, as well as applicable material systems.5.2Directed energy deposition (DED) systems have the following general collection of characteristics: ability to process large build volumes (>1000 mm3), ability to process at relatively high deposition rates, use of articulated energy sources, efficient energy utilization (electron beam and arc plasma), strong energy coupling to feedstock (electron beam and arc plasma), feedstock delivered directly to the melt pool, ability to deposit directly onto existing components, and potential to change chemical composition within a build to produce functionally graded materials. Feedstock for DED is delivered to the melt pool in coordination with the energy source, and the deposition head (typically) indexes up from the build surface with each successive layer.5.3Although DED systems can be used to apply a surface cladding, such use does not fit the current definition of AM. Cladding consists of applying a uniform buildup of material on a surface. To be considered AM, a computer aided design (CAD) file of the build features is converted into section cuts representing each layer of material to be deposited. The DED machine then builds up material, layer-by-layer, so material is only applied where required to produce a part, add a feature or make a repair.5.4DED has the ability to produce relatively large parts requiring minimal tooling and relatively little secondary processing. In addition, DED processes can be used to produce components with composition gradients, or hybrid structures consisting of multiple materials having different compositions and structures. DED processes are also commonly used for component repair and feature addition.5.5Fig. 1gives a general guide as to the relative capabilities of the main DED processes compared to others currently used for metal additive manufacturing. The figure does not include all process selection criteria, and it is not intended to be used as a process selection method.FIG. 1Comparison of Various Metal Additive Manufacturing ProcessesNote 1:In this figure, Build Volume refers to the relative size of components that can be processed by the subject process. Detail Resolution refers to the ability of the process to create small features. Deposition Rate refers to the rate at which a given mass of product can be produced. Coupling Efficiency refers to the efficiency of energy transfer from the energy source to the substrate, and Potential for Contamination refers to the potential to entrain dirt, gas, and other possible contaminants within the part. -
铝生产中使用的碳阴极块的取样计划和芯取样的标准指南
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM D6354-23
发布时间:2023-07-01
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:摘要: 1.1This guide covers sampling of carbon cathode blocks used in the production of aluminum, and details procedures for taking samples from single cathode blocks. It covers equipment and procedures for obtaining samples from cathode blocks in a manner that does not destroy the cathode block or prevent its subsequent use as originally intended. However, the user must determine the subsequent use of the sampled cathode blocks. Preferred locations for taking samples from single units of cathode blocks are covered in this guide.1.1.1Information for sampling of shaped refractory products, in general, is given in ISO 5022. This standard details the statistical basis for sampling plans for acceptance testing of a consignment or lot. Cathode blocks used in the production of aluminum have specific requirements of sampling, and while the statistical basis for sampling given in ISO 5022 applies, further or modified requirements may also apply.1.2The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.Note 1:The following ASTM standards are noted as sources of useful information: Test MethodsC559,C611,C651,C747,C1025,C1039, andC1225.1.3This 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.1.4This 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. ====== Significance And Use ======4.1Core sampling is an acceptable way of obtaining a test specimen without destroying the usefulness of a cathode block.4.1.1Test specimens obtained by this guide can be used by producers and users of cathode blocks for the purpose of conducting the tests inNote 1to obtain comparative physical properties.4.2Sampling shall not weaken the cathode block or increase the likelihood of premature failure. Extreme care shall be exercised when taking vertically drilled samples. -
9.[标准] Standard Guide for Sampling Plan and Core Sampling for Prebaked Anodes Used in Aluminum Production
铝生产用预焙阳极的取样计划和芯取样的标准指南
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM D6353-23
发布时间:2023-07-01
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:摘要: 1.1This guide covers sampling for prebaked carbon anodes used in the production of aluminum, and details procedures for taking test samples from anode blocks. It covers equipment and procedures for obtaining samples from anode blocks in a manner that does not destroy the block or prevent its subsequent use as originally intended. However, the user must determine the subsequent use of the sampled anode blocks. Preferred locations for taking samples from single units of anodes are covered in this guide.1.1.1Information for sampling of shaped refractory products, in general, is given in ISO 5022. This standard details the statistical basis for sampling plans for acceptance testing of a consignment or lot. Anodes used in the production of aluminum have specific requirements for sampling and while the statistical basis for sampling given in ISO 5022 applies, further or modified requirements may also apply.1.1.2Information for sampling of anodes for Al-metal production is given in ISO 8007-2. This standard details the statistical basis for sampling plans for acceptance testing of a consignment or lot.1.2The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.Note 1:The following ASTM standards are noted as sources of useful information: Test MethodsD5502,D6120,D6744, andD6745.1.3This 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.1.4This 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. ====== Significance And Use ======4.1Core sampling is an acceptable way of obtaining a test specimen without destroying the usefulness of an anode block.4.1.1Test specimen obtained by this guide can be used by producers and users of carbon anodes for the purpose of conducting the tests inNote 1to obtain comparative physical properties.4.2Sampling shall not weaken the anode or increase the likelihood of premature failure. -
10.[标准] 冶金焦化、烧结、球团配料自动采样控制系统技术规范发布单位:
中国-行业标准-黑色冶金(CN-YB)
标准状态:现行
标准号:YB/T 6050-2022
发布时间:2022-09-30
中标分类:H30 冶金 - 冶金原料与辅助材料 - 冶金原料与辅助材料综合
国标分类:77.020 冶金 - 金属生产
实施时间:2023-04-01
摘要: 本文件规定了焦化配煤、烧结矿配料、球团矿配料过程自动采样控制系统的集成系统基本要求、采样单元基本要求、制样单元基本要求和控制单元基本要求。本文件适用于焦化配煤生产线、烧结矿配料、球团矿配料生产线 -
11.[标准] 热等静压致密化处理通则发布单位:
中国-国家标准计划(CN-PLAN)
标准状态:正在起草
标准号:20220763-T-610
发布时间:2022-07-19
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间: -
12.[标准] 固定式火焰熔铝炉节能控制系统技术要求发布单位:
中国-团体标准(CN-TUANTI)
标准状态:废止
标准号:T/SGZX 008-2022
发布时间:2022-11-28
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2022-12-01
摘要: 范围:本文件适用于铝加工业生产线上装备固定式火焰熔铝炉的节能控制系统;主要技术内容:本文件规定了固定式火焰熔铝炉节能控制系统的组成、基本要求及控制、功能、通信、性能等技术要求 -
13.[标准] 高纯五氧化二钒发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CISA 288-2022
发布时间:2022-11-07
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2023-01-01
摘要: 范围:本文件规定了粉状高纯五氧化二钒的技术要求、试验方法、检验规则和包装、标志、储存、运输及质量证明书。本文件适用于冶金、化工用高纯五氧化二钒;主要技术内容:本文件规定了粉状高纯五氧化二钒的技术要求、试验方法、检验规则和包装、标志、储存、运输及质量证明书。本文件适用于冶金、化工用高纯五氧化二钒 -
14.[标准] 铸造高温合金真空熔炼用坩埚发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CISA 213-2022
发布时间:2022-04-13
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2022-07-01
摘要: 主要技术内容:本文件规定了铸造高温合金真空熔炼用坩埚的订货内容、技术要求、试验方法、检验规则和包装、标志、运输、贮存和质量证明书。适用于高温合金一次熔炼、二次熔炼及铸造用成型坩埚 -
15.[标准] 铼酸铵发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CISA 212-2022
发布时间:2022-04-13
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2022-07-01
摘要: 主要技术内容:本文件规定了铼酸铵的订货内容、技术要求、试验方法、检验规则、包装、标志、质量证明书。适用于结晶工艺生产高纯铼酸铵和铼粉、铼制品业及其他行业所需铼酸铵 -
16.[标准] 锌湿法冶炼中镓铟锗同步富集技术规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CNIA 0131-2022
发布时间:2022-02-28
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2022-08-01
摘要: 主要技术内容:本文件规定了锌湿法冶炼过程中镓铟锗同步富集技术的总体要求、设备要求、工艺流程、质量要求和运行与管理。本文件适用于锌湿法冶炼过程中镓铟锗的同步富集,供生产镓、铟、锗等元素的化学品及金属制品等 -
17.[标准] 钢铁低碳烧结技术规范发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CIECCPA 015-2022
发布时间:2022-11-10
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2022-11-15
摘要: 主要技术内容:本文件规定了钢铁行业低碳烧结技术相关的术语和定义、技术要求、测试和计算方法。本文件适用于钢铁行业低碳烧结技术的选择和运行管理 -
18.[标准] 绿色设计产品评价技术规范 软磁铁氧体磁心发布单位:
中国-团体标准(CN-TUANTI)
标准状态:现行
标准号:T/CISA 289-2022
发布时间:2022-11-07
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:2023-01-01
摘要: 范围:本文件规定了软磁铁氧体磁心绿色设计产品评价的评价要求、评价方法和产品生命周期评价报告编制方法。本文件适用于软磁铁氧体磁心绿色设计产品评价;主要技术内容:本文件规定了软磁铁氧体磁心绿色设计产品评价的评价要求、评价方法和产品生命周期评价报告编制方法。本文件适用于软磁铁氧体磁心绿色设计产品评价 -
联邦直接税法案(DBG)(增加保险费和储蓄资本利息的扣除额)(草案)
发布单位:瑞士-瑞士技术法规(CH-LEX)
标准状态:标准号:BBl 2022 1723
发布时间:2022-07-14
中标分类:L79 电子元器件与信息技术 - 信息处理技术 - 计算机开放与系统互连
国标分类:77.020 冶金 - 金属生产
实施时间: -
测定焙烧碳阳极和阴极块的热重分析CO反应性的标准试验方法
发布单位:美国-美国材料与试验协会(US-ASTM)
标准状态:现行
标准号:ASTM D6558-22
发布时间:2022-05-01
中标分类:-
国标分类:77.020 冶金 - 金属生产
实施时间:摘要: 1.1This test method covers the thermogravimetric (TGA) determination of CO2reactivity and dusting of shaped carbon anodes and cathode blocks used in the aluminum reduction industry. The apparatus selection covers a significant variety of types with various thermal conditions, sample size capability, materials of construction, and procedures for determining the mass loss and subsequent rate of reaction. This test method standardizes the variables of sample shape, reaction temperature, gas velocity over the exposed surfaces, and reaction time such that results obtained on different apparatuses are correlatable.1.2The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.1.3This 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.1.4This 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. ====== Significance And Use ======5.1The CO2reactivity rates are used to quantify the tendency of a carbon artifact to react with carbon dioxide. Carbon consumed by these unwanted side reactions is unavailable for the primary reactions of reducing alumina to the primary metal. CO2dusting rates are used to quantify the tendency of the coke aggregate or binder coke of a carbon artifact to selectively react with these gases. Preferential attack of the binder coke or coke aggregate of a carbon artifact by these gases causes some carbon to fall off ordust, making the carbon unavailable for the primary reaction of reducing alumina and, more importantly, reducing the efficiency of the aluminum reduction cell.5.2Comparison of CO2reactivity and dusting rates is useful in selecting raw materials for the manufacture of commercial anodes for specific smelting technologies in the aluminum reduction industry.5.3CO2reactivity rates are used for evaluating effectiveness and beneficiation processes or for research purposes.