增材制造标准领航行动计划(2020-2022年)

BETTER COMMUNICATION ｜ GREATER VALUEStandardization action plan to empower additive manufacturingA new standards system for additivemanufacturing will be established in lightof national conditions and internationaldevelopments by 2022, as identified in theAction Plan of Leading the Development ofAdditive Manufacturing by Standards (2020-2022) jointly issued by six ministries anddepartments of China, including SAC and MIIT.Additive manufacturing, also known as3D printing, is a transformative approach toindustrial production that enables the creation of lighter, stronger parts and systems. Standardization in the field of additive manufacturing has gone a long way since China became the participating member of ISO/TC 261 (additive manufacturing) in 2014 and established the national counterpart SAC/TC 562 in 2016. However, as the global market is growing by leaps and bounds, China’s additive manufacturing industry lags behind in terms of standardization. Systematic and comprehensive planning is demanded to push forward standardization of additive manufacturing and allow standards to lead and regulate the industrial development.The Plan includes policies to advance the development, implementation and application of standards in the field of additive manufacturing in China. It also sets the goal to make 90% of related national standards identical to international standards.The development of application standards focuses on such key areas as aerospace, ships and boats, rail transport applications, automobiles, nuclear industry, electric equipment, biomedical devices, home appliances, and the field of moulding and casting.The Plan also encourages the development of advanced, competitive association standards on specific technologies and products, and the participation of market entities in the national and international standardization work. It also proposes the increase of financial support for the development of additive manufacturing standards.The current outbreak of coronavirus disease (COVID-19) brings serious impediments to Chinese enterprises, including those in foreign trade, who face the challenges of standards alignment among others.A large part of their products for the international market is produced in line with international or foreign standards. Those products are not allowed to be sold inside China based on the current legislation.In view of their difficulties, SAMR Vice-Minister Tang Jun stated that SAMR would accelerate the harmonization of national and international standards to leverage the potential of those capacities, as a measure to support foreign trade enterprises to resume production on February 25, 2020 at the press conference of the State Council to notify the current conditions of resuming production in China under the pressure from COVID-19.Efforts will be made to facilitate the selling of those products produced based on international or foreign standards in domestic market if their technical indicators meet the requirements of corresponding mandatory national standards. Social organizations are encouraged to develop relevant association standards demanded by enterprises resuming production.It also introduces a series of measures in terms of measurement standards, certification, accreditation and testing. For example, qualification procedure is made streamlined for the enterprises that produce protective facial masks for export based on international standards and are capable of producing such products conforming to national standards.Harmonizing national and international standardsfor enterprises in foreign tradeBETTER COMMUNICATION ｜ GREATER VALUENIM develops 2019-nCoV RNA certified reference materialsThe National Institute of Metrology (NIM) of China has successfully developed two certified reference materials (CRMs) for 2019-nCoV nucleic acid testing (NAT). These CRMs can be used for qualitative and quantitative measurements of 2019-nCoV nucleic acid, validation of 2019-nCoV NAT methods, and quality control and assessment of NAT kits, providing metrological traceability to measuring results.The two CRMs are in vitro transcribed RNA, designed to target the published three major genes of novel coronavirus: the nucleoprotein N gene (full length), the envelope protein E gene (full length), and the open reading frame 1ab (ORF1ab) gene fragment (genomic position: 14911-15910). At present these CRMs have been distributed to more than 90 institutions in need, including disease control and prevention centers, clinical laboratories, hospitals, scientific research institutions, and kit manufacturers.China will witness improved performance of products in energy and water efficiency after the implementation of 20 mandatory national standards for energy and water efficiency in 4 areas including home appliances, refrigeration and air conditioning components, industrial products and water-consuming appliances in 2020. The series standards were developed and revised under the leading efforts of the Branch of Resource and Environment Research of CNIS.The implementation of those standards will contribute to the development of energy and water efficient products and guide enterprises to advance energy and water efficiency technology. It also provides technical bases for national policies on energy and water efficiency labeling and “forerunner” system. At the meantime, the action will help prepare for the enforcement of Administrative Measures on Mandatory National Standards on June 1, 2020, contributing to the promotion of national campaign on energy conservation and emission reduction.Twenty mandatory national standards for energy and water efficiency to be enforcedGuidance on pre-hospital emergency response to COVID-19Pre-hospital emergency response is crucial for the healthcare and transfer of patients suspected of COVID-19. To provide technical basis for the rapid response and preparedness of emergency medical centers and epidemic control institutions, Kunming Administration for Market Regulation developed and issued the first standard for the fight against COVID-19 on February 11, 2020, in collaboration with experts in the area.The local standard, DB 5301/T42-2020, Guidance on pre-hospital emergency response of novel coronavirus pneumonia epidemic, provides the inquiry (in terms of basic conditions, epidemic aspects, etc.) and suspicion determination criterion during the pre-hospital emergency response of the disease.The standard will help precisely diagnosesuspected cases and accordingly provideemergency care providers with guidance oneffective emergency care and self-protection.During the emergency response, warningsand guidance on self-protection will be givento persons staying near the patient, in an aimto reduce person-to-person transmission inclusters. It also provides emergency medicalcenters with the basis for early detection anddiagnosis of suspected cases.By far, the standard has been circulatedacross Yunnan province along with a videoshowing how to give emergency response ina standardized way. At the meantime, the fulltext of the standard has been disclosed onthe official website of Yunnan Administrationfor Market Regulation and will soon besubmitted to the National InformationPlatform on Local Standards.BETTER COMMUNICATION ｜ GREATER VALUEThe design of emergency medical facilities to be normalizedThe guidance on the design of emergency medical facilities for COVID-19 was published and implemented on February 6, 2020. The standard developed by China Association for Engineering Construction Standardization is applicable to the design of rebuilt, expanded and newly established emergency medical facilities in response to the epidemic.It specifies a new hygiene grading system, the layout of paths for people and goods, and the concept of reducing maintenance risks to effectively avoid cross infection and transmission of the virus inside emergency medical facilities.The standard also requires that negative-pressure room be designed to prevent cross-contamination from room to room, with single and double rooms respectively for suspected and confirmed cases. Patients with severe conditions or complications should be settled in negative-pressure isolation room. It also specifies technical parameters for air movement and measures for operation management of such rooms.More importantly, it covers thedesign of key protective measuresf o r m e dic al p r o f e s sio n al s t otravel from semi-clean to semi-contaminated areas and from semi-contaminated to contaminatedareas, so as to effectively preventinfection. Besides, the standardi n c l u d e s d e s i g n p a r a m e t e r sand principles for wastewaterm a n a g e m e n t,ox y g e n s u p p lysystem, and electric system in thefacilities.Shanghai releases the guideline for preventing and controlling COVID-19 in rehabilitationEmpowering non-contact delivery serviceHow to prevent 2019-nCoV transmission in rehabilitation is crucial for winning the fight against the virus. Standards have a major role to play in improving protective measures against contamination during the rehabilitation of COVID-19 patients whether in early course of disease, in stable conditions or after discharge from hospital.To this end, Shanghai Association of Rehabilitation Medicine recently released an association standard in the area, T/SRMA 6—2020, the Guidelines for preventing and controlling novel coronavirus pneumonia in rehabilitation . It specifies principles for the management of rehabilitation practitioners, patients and family members of patients, regulating the disposal of medical waste and contaminated items, standardizing operating procedures and disinfection process, guaranteeing reserve of protective medical products, giving appropriate treatments, etc.The standard applies to rehabilitation hospitals, department of rehabilitation medicine, and other medical institutions providing rehabilitation services. It is expected to help regulate rehabilitation practitioners’ behaviors and prevent infection by the virus in rehabilitation. first put forward the specifications for non-contact delivery services,specifying the terms and definitions, requirements for information service ability,service process and quality control of non-contact delivery services provided by fooddelivery platforms.The customers will not have to interact with the delivery person at all. Instead,food will be left on the customer’s doorstep or reception area of a company for themto retrieve once the deliveryman has left. Or the meal is put in smart express boxes inthe case of delivery to hospitals.The enterprise standard is now under review for adoption as an associationstandard, so as to provide reference for more delivery companies and guard customersand delivery persons from infection.。

国家重点研发计划增材制造与激光制造指南引言：增材制造与激光制造技术是当今工业制造领域中的关键技术之一。

为了推动我国制造业的转型升级和技术创新，我国政府制定了国家重点研发计划增材制造与激光制造指南。

本指南旨在指导相关企业和研究机构在增材制造与激光制造领域的技术研发和应用推广，提升我国在这一领域的国际竞争力。

一、指南的背景和意义1.增材制造与激光制造技术是现代工业制造中具有广泛应用前景的核心技术之一。

2.国家重点研发计划是我国支持创新科技发展、推动产业升级的重要计划。

3.制定本指南的目的是推动我国增材制造与激光制造技术的进一步发展，提升我国制造业的核心竞争力。

二、增材制造技术发展现状1.对增材制造技术的定义和原理进行清晰解释。

2.分析国内外增材制造技术的研究进展，指出我国在这一领域的优势和不足。

3.分析增材制造技术在国内外产业中的应用情况，并提出未来的发展趋势。

三、激光制造技术发展现状1.对激光制造技术的定义和原理进行清晰解释。

2.分析国内外激光制造技术的研究进展，指出我国在这一领域的优势和不足。

3.分析激光制造技术在国内外产业中的应用情况，并提出未来的发展趋势。

四、技术研发重点和方向1.确定增材制造与激光制造技术研发的重点方向，包括材料、设备、工艺等方面。

2.提出针对关键技术的研发路径和解决方案。

3.强调跨学科、跨行业的合作和创新，加强基础研究和应用研究的结合。

五、应用推广和产业化1.提出促进增材制造和激光制造技术应用的政策措施和法规支持。

2.加强技术标准和质量控制，提高产品的可靠性和稳定性。

3.推动相关产业链的协同发展，打造增材制造和激光制造的产业集群。

六、人才培养和创新团队建设1.强调培养高素质的增材制造和激光制造专业人才，提供相关教育和培训机会。

2.支持相关企业和研究机构的创新团队建设，鼓励人才流动和技术交流。

七、资金支持和项目管理1.加大对增材制造和激光制造技术研发的资金支持。

2.设立专门的项目管理机构，加强对项目的监督和评估。

中国发布增材制造标准领航行动计划To boost high-quality development and improve the qualityof products and services by following the decision of the StateCouncil, the Standardization Administration of China (SAC) issuedthe Action Plan for Standards Leading the Development of AdditiveManufacturing (2020-2022) in late February in joint hands withthe Ministry of Industry and Information Technology, the Ministryof Science and Technology, the Ministry of Education, NationalMedical Products Administration, and the Chinese Academy ofEngineering.additive manufacturing60 CHINA STANDARDIZATION July / August 2020BETTER COMMUNICATION ｜ GREATER VALUECopyright ©博看网. All Rights Reserved.Additive manufacturing, also known as 3D Printing, is regarded as one of the game-changing technologies that can facilitate the industrial revolution. With outstanding strengths in making tailored products and complex structural components and equipment, the technology has a major influence on the traditional manufacturing process, production and processing mode of factory, and even the whole industry chain of manufacturing.Considering additive manufacturing as a new growth driver, developed countries have vigorously boosted the technological innovation and industrialization application. China has also made breakthroughs in the technological innovation such as large metal load-carrying structural parts and the application of additive manufacturing in aviation, aerospace and biological medicine. So far, China has become the major exporter of desktop material extrusion equipment with dozens of competitive companies and several industry clusters.In terms of standards, ISO/TC 261, CEN/TC 438 and ASTM Committee F42 have reached an agreement on developing and implementing a harmonious set of standards system and technical standards on additive manufacturing. In 2014, China became the Participating Member of ISO/TC 261. Later in 2016, SAC/TC 562 on additive manufacturing was established. So far, the committee has developed a number of technical standards for special materials, process, equipment, testing and services related to additive manufacturing.Yet there are still deficiencies in this area, such as the lack of standards, the backwardness for adoption of international standards, the market entities’ insufficient participation in domestic and international standardization work, etc. It is time to make a holistic plan and promote additive manufacturing standardization in an all-round way, making standards play a predominant role in advancing the additive manufacturing industry.Copyright©博看网. All Rights Reserved.612020 July / August CHINA STANDARDIZATIONGoals of the planTo this end, the Action Plan sets specific goals of additive manufacturing work from 2020 to 2022. By the end of 2022, a new standards system of additive manufacturing will be basically established based on the current domestic and international situations.About 80-100 leading standards on special materials, processes, equipment, software, testing methods and services of additive manufacturing will be developed, together with a great number of competitive association standards playing a leading role. At that time, standards will play a pivotal role in boosting the technical innovation and industrial development in this area. Two or three advanced domestic additive manufacturing technologies will be promoted to be included in international standards. The adoption rate of international standards for additive manufacturing in China will reach 90 percent. The international competitiveness of standards for additive manufacturing will be continuously improved.Four principlesFour principles are stipulated in the Action Plan.Leading role of standards. Developing leading standards is a major goal of the Action Plan. A batch of new standards on additive manufacturing technologies, materials, processes and products shall be developed in time, and the standards layout of this field shall be improved, playing the leading role of standards in the industrial development of additive manufacturing.International integration. The harmonization of Chinese and international standards is a major task in the Action Plan. The adoption of international standards shall be accelerated, and the participation in international standards shall be enhanced. In this way, China will make more contributions to the international standardization work in this area.Synergistic development. The key to the Action Plan is to establish a work mechanism promoting the synergistic development of technologies, standardization and industry. Policies, industry, standards development and application shall be arranged as a whole to proactively integrate standards development into the whole process of technological innovation and strengthen the connection between the additive manufacturing industry with relevant standards.Implementation-oriented. The Action Plan is aimed at enhancing standards application and benefiting from standardization. The publicity of standards and evaluation of implementation results shall be conducted timely to identify existing problems so as to revise standards in time, as the value of additive manufacturing standards are embodied in application.62 CHINA STANDARDIZATION July / August 2020BETTER COMMUNICATION ｜ GREATER VALUECopyright ©博看网. All Rights Reserved.ActionsEstablishing a sound additive manufacturingstandards systemA sound additive manufacturing standardssystem is scheduled to be established as soon aspossible by referring to the practicable internationalstandardization framework and roadmap of additivemanufacturing. The top design of standards inthe areas of common and key technologies andindustrial application will be completed.Key technical standards shall focus on thecore technologies curbing the current industrialdevelopment, so as to create the leading standardslayout. Standards for industrial application shallmeet the needs of specific sectors, such as aviation,aerospace, shipping, rail traffic equipment, vehicles,nuclear industry, power equipment, biologicalmedicine, household appliance, mould and casting.Competitive, advanced association standardsdevelopment are encouraged to respond to theneeds of specific technologies and products.Developing a number of “leading standards” foradditive manufacturing- Special material standards. Standards for metalmaterials and composite materials specially usedfor additive manufacturing will be developed tostipulate the quality indicators of special materialsand improve requirements for performance stability.In addition, standards on the production processcontrol, recycling, treatment and reusing of thesespecial materials shall be developed to reduceproduction costs of companies.Copyright©博看网. All Rights Reserved.632020 July / August CHINA STANDARDIZATION- Process and equipment standards. Standards for the new process and equipment of additive manufacturing will be developed to promote the application of technological achievements. The post processing standards matching with additive manufacturing processes are projected to be developed to regulate the post processing.- Testing method standards. Standards for the performance and safety testing and evaluation method of additive manufacturing special materials will be developed to raise users’ confidence in additive manufacturing technologies and products and expand the application area. Other relevant standards need to be developed including the quality evaluation standards for formed parts, standards for the safety and performance evaluation of additive manufacturing equipment and so forth.- Software for special purpose and services standards. Standards on the software for special purpose, product design, data quality, data exchange and interface specification will be developed, together with those on education and training, service mode, and product purchase service specifications.64 CHINA STANDARDIZATION July / August 2020BETTER COMMUNICATION ｜ GREATER VALUECopyright ©博看网. All Rights Reserved.- Standards for featured areas. Standards on the additive manufacturing process upgrading, topological structure, the design and manufacturing of functional structure will be developed to respond to the needs of aerospace and aviation areas. A batch of standards on implantable material, equipment, process and software will be developed to guide the production of tailored implantable products, simulation, repair and reestablishment of organs and tissues. Other standards will be developed to resolve the problems of long process cycle of key components, high cost of restoration, limited function and manufacturing level, etc.Strengthening international standardization workThe research on the additive manufacturing standardization policies of developed countries and regions will be conducted to seek for more pragmatic international cooperation. Standardization technical committees on additive manufacturing shall enhance the tracking and adoption of relevant international standards, establish working groups matching with those at international level, and put forward standards proposals on additive manufacturing services, forming precision inspection, and online monitoring of process at domestic and international levels. Besides, social organizations are encouraged to develop globally applicable association standards with foreign interested parties to facilitate trade.Establishing an innovative working mechanism of standards developmentThe collaboration of the standardization technical committees in the upstream and downstream industry chain of additive manufacturing will be enhanced. The requirements for testing and certification shall be considered in the process of standards development. Based on the experience in constructing the national technical standards innovation bases, an innovative working mechanism will be explored to promote the synchronous development of technological innovation, standardization and industrialization.Putting more efforts in standards implementationThe standardization pilot program of additive manufacturing, and evaluation and feedback of standards application results will be carried out in the industrial clusters. The comprehensive standardization pilot program will be conducted in parks or companies with some experience in standardization to promote the implementation of series of standards. In addition, the additive manufacturing enterprise standards “forerunner” program will be carried out in areas closely related to people’s life that have large market demands with fast evolving products. In this way, these “forerunner” standards will help improve the quality of additive manufacturing products.(Translated by Cao Xinxin) Copyright©博看网. All Rights Reserved.。

江苏省增材制造产业发展三年行动计划（2018-2020年）增材制造（又称3D打印）是以数字模型为基础，将材料逐层堆积制造出实体物品的具有颠覆性的新兴制造技术，对传统制造业的工艺流程、生产线、工厂模式、产业链组合具有广泛而深远的影响。

基于增材制造技术的增材制造产业涵盖了产业设计、材料、装备、软件、工艺、应用等众多领域，发展前景广阔。

“十三五”以来随着我省大力发展高端装备制造等战略性新兴产业，我省增材制造产业领域得到了较快发展，形成了一批具有良好竞争力的企业和研发机构，产业链逐步完善，产业竞争力明显增强，目前全省增材制造领域年专利申请量国内领先。

但总体来看，我省增材制造产业规模总量还不够大，创新能力还不够强。

为全面贯彻落实党的十九大精神，深入推进制造强省建设，加快培育制造业发展新动能，根据工信部等十二部门联合发布的《增材制造产业发展行动计划（2017-2020年）》（工信部联装〔2017〕311号）要求和《中国制造2025江苏行动纲要》（苏发〔2015〕16号）相关部署，现就今后三年加快江苏增材制造产业发展提出以下行动计划。

- 14 -一、总体要求与基本原则（一）总体要求围绕推进供给侧结构性改革、培育产业发展新动能、推动和服务制造强省建设的要求，坚持做强产业和做大市场协同推进。

一方面强化技术创新，着力突破基础材料、成型技术、工艺软件等关键环节，研发一批国内领先、达到国际先进水平的增材制造装备；另一方面强化市场应用，面向航空航天、汽车、家电、生物医疗、文化教育等领域重大需求，深入开展增材制造产品示范应用和市场推广，加快形成产业链协同推进体系，实现产业快速健康高效发展，稳步提升产业整体竞争力。

（二）基本原则1、坚持市场主导和政府引导相结合。

发挥市场在资源配置中的决定性作用，突出做强做大企业主体，充分激发企业活力和创造力。

更好地发挥政府的引导和服务作用，积极营造市场环境，培育产业生态，强化政策扶持，促进产业集聚集群发展。

图3为混凝土劈裂抗拉强度随龄期的变化情况，由图可知，矿渣掺量为10%、20%和35%时，脱模时混凝土的抗折强度较基准混凝土分别提高了37.5%、75.0%和91.6%。

90d 龄期时，矿渣掺量为10%、20%和35%时，混凝土的抗折强度较基准混凝土分别提高了38.2%、55.8%和64.7%，表明蒸汽养护更有利于混凝土早期劈裂抗拉强度的增长。

混凝土轴心抗压强度随龄期的变化情况如图4所示，由图4可知，掺加矿渣的混凝土经过蒸汽养护后，其脱模轴心抗压强度均在40MPa 以上。

矿渣掺量为10%、20%和35%时，脱模时混凝土的抗压强度较基准混凝土分别提高了9.0%、13.5%和15.3%。

掺加矿渣的混凝土在各龄期的增长幅度均高于基准组；但当矿渣掺量超过20%后，抗压强度的增长趋于平缓，各龄期轴心抗压强度值与矿渣掺量为20%时基本相当。

2.2蒸汽养护混凝土耐久性研究选择矿渣掺量为20%的混凝土试件进行了抗渗性和抗冻性测试，其中抗渗性分别采用NEL 法和RCM 法，抗冻性测试采用快速冻融法，所得测试结果见表3。

由表3的数据可知，此组混凝土在蒸汽养护条件下表现出了较好的耐久性能。

根据TB 10424-2010《铁路混凝土工程施工质量验收标准》中的规定，该混凝土电通量试验结果表明其满足强度等级大于等于C50，设计年限为100年的要求；氯离子扩散系数测试结果表明，该混凝土满足L3环境等级下100设计年限的要求。

快速冻融试验结果表明，该混凝土至少满足D2环境等级下，60年设计年限的要求。

这是因为矿渣颗粒比水泥颗粒更细，这些微细颗粒均匀分散在水泥浆体中，成为大量水化物沉积的核心，随着水化的进展，这些细微颗粒及其水化反应产物填充在水泥石的孔隙当中，改善了混凝土结构，逐渐降低混凝土的渗透性，有效阻碍了侵蚀性介质的浸入。

3结语（1）经蒸汽养护后，掺矿渣的混凝土力学性能得到改善，各龄期的抗压强度、抗折强度、劈裂抗拉强度和轴心抗压强度均高于基准混凝土，且后期强度的增长幅度均大于基准混凝土。

国内外新材料产业发展现状及趋势分析新材料是指新出现的具有优异性能或特殊功能的材料，或是传统材料改进后性能明显提高或产生新功能的材料。

新材料是新一轮科技革命和产业变革的基石与先导，是重要的战略性、基础性产业，也是国家面向未来确定的战略必争领域之一。

新材料产业链中，上游为金属原料、合金、化学纤维、陶瓷、塑料、生物基、树脂、石墨等原材料；中游为新材料制造，主要包括石墨烯材料、超导材料、3D打印材料、智能仿生与超材料、纳米材料、生物医用材料以及液态金属等；下游为应用领域，前沿新材料广泛应用于电子电气、汽车、新能源、医疗、航天航空等领域。

国际新材料产业发展现状和趋势发展现状全球新材料产业政策频出。

2008年以来，发达国家纷纷启动“再工业化”战略，将制造业作为回归实体经济、抢占新一轮国际科技经济竞争制高点的重要抓手，材料作为制造业基石的战略地位日益提升。

近年来，世界各国特别是发达国家瞄准新材料产业发展，先后制订了系列专项战略或规划，此外，主要发达国家针对新材料重点领域，如高温合金、碳纤维及复合材料、新型显示材料、新型能源材料、第三代半导体材料、稀土新材料、石墨烯等，还出台了专项政策。

区域化发展特色鲜明。

经过多年的发展，各国已经形成了相对鲜明的发展特色，发展也各有侧重点。

总体上，以美国、欧洲和日本占据领先地位，聚集了一批在经济实力、核心技术、研发能力、市场占有率等方面占据绝对优势的新材料龙头企业。

韩国、俄罗斯和我国在新材料某些特定领域处于全球领先地位，位于第二梯队。

第三梯队为巴西、印度等国家，目前处于奋力追赶的状态。

表1 发达国家或地区新材料相关战略规划及方向特色产业发展规模持续扩张。

随着全球高新技术产业快速发展和制造业不断升级，以及可持续发展的持续推进，新材料的产品、技术、模式不断更新，应用领域不断拓展，在产业需求侧及供给侧政策双重作用下，全球新材料产业蓬勃发展，据统计，2022年全球新材料产业市场规模约3.8万亿美元，2016-2022年年均复合增长率约为10.5%。

制造业智能化升级行动计划为深入贯彻制造强城,加快推进关于加快制造业数字化转型的工作部署，发挥制造业对经济发展和创新转型的基础支撑作用，推动制造业实现数字化转型，结合实际，制定本行动计划。

一、总体思路立足新发展阶段，完整、准确、全面贯彻新发展理念，按照〃分行业、树标杆、深应用、强支撑、保安全、全覆盖〃的思路，以深化信息技术与制造业融合发展为主线，以智能制造为牵引，以工业互联网创新发展为抓手,以数据为关键要素,加快推动推动制造业智能化、绿色化、融合化发展，为加速新型工业化进程、加快建设制造强城提供有力支撑。

二、发展目标通过五年的努力，数字化转型供给产业体系完备，深度赋能优势产业提质倍增，大数据、智能等新信息技术与制造业融合成为制造立市重要支撑，重点行业规模以上制造企业实现智能应用场景全覆盖。

规模以上制造企业数字化研发设计工具普及率、生产设备数字化率、关键工序数控化率均达到平均水平以上。

(一)提升企业转型整体水平。

支持企业深化数字化装备、信息系统集成应用，支持龙头骨干企业率先开展信息技术集成应用创新,以〃产线、车间、工厂〃为基本单元梯度实施智能化改造，培育一体化〃智能制造单元〃，逐步实现全要素、全流程、全生态数字化转型。

实施智能工厂（车间）培育工程，创建一批智能制造、工业互联网等数字化转型标杆。

（二）提升链条融通协同能力。

支持构建行业生产全流程运行数据模型，基于数据分析实现工艺改进、运行优化和质量管控。

支持产业链〃链主〃企业、重点企业建设行业型工业互联网平台，打造〃一链一网一平台，，生态，融通产业链大中小企业，推动整个产业链、供应链、价值链、科技链水平提升。

（三）全面提升数字服务能级。

加快推进新型智慧园区平台建设与运营，推动规模以上工业企业技术改造全覆盖，以数字化赋能园区管理、服务能力提升和模式创新。

鼓励重点产业园区聚焦主导产业推进〃平台+园区〃〃标识+园区〃融合发展，不断提升产业链重点企业数字化水平，增强产业集聚和上下游产能共享、供应链互通。

中国及部分省市超高分子量聚乙烯纤维行业相关政策增加聚氨酯等材料品种规格
超高分子量聚乙烯纤维，又称高强高模聚乙烯纤维，是目前世界上比强度和比模量最高的纤维，由于其具有众多的优异特性，在高性能纤维市场上，包括从海上油田的系泊绳到高性能轻质复合材料方面均显示出极大的优势，在现代化战争和航空、航天、海域防御装备等领域发挥着举足轻重的作用。

国家层面超高分子量聚乙烯纤维行业相关政策
近些年，为了促进超高分子量聚乙烯纤维行业发展，中国陆续发布了许多政策，如2022年2月工业和信息化部等部门联合发布的关于“十四五”推动石化化工行业高质量发展的指导意见实施“三品”行动，提升化工产品供给质量。

围绕新一代信息技术、生物技术、新能源、高端装备等战略性新兴产业，增加有机氟硅、聚氨酯、聚酰胺等材料品种规格，加快发展高端聚烯烃、电子化学品、工业特种气体、高性能橡塑材料、高性能纤维、生物基材料、专用润滑油脂等产品。

地方层面超高分子量聚乙烯纤维行业政策
显示，为了响应国家号召，各省市积极推动超高分子量聚乙烯纤维行业发展，如2021年9月发布的黑龙江省中长期科学
和技术发展规划(2021—2035年）中规划：开展高性能碳纤维、高性能热塑性树脂基复合材料、金属基复合材料、陶瓷基复合材料、智能复合材料、低成本复合材料、生物基复合材料等制备技术的研究与应用。

近年来，国家重点研发计划对增材制造材料的重视日益提升。

增材制造作为一种革命性的制造方式，正在逐渐改变传统制造业的格局。

针对这一主题，我将从多个方面展开深度和广度兼具的评估，并撰写一篇有价值的文章，帮助您更全面地了解国家重点研发计划对增材制造材料的意义和影响。

让我们从国家重点研发计划的角度来审视增材制造材料。

国家重点研发计划作为国家级科技项目的重要组成部分，旨在推动科技创新和产业升级。

在近年来的计划中，增材制造材料频繁出现在各个重点项目中，可见其在国家科技发展战略中的重要性。

增材制造材料的研发不仅关乎制造业的未来发展，更涉及国家实力和竞争力的提升。

国家重点研发计划对增材制造材料的支持意义重大，其影响力广泛而深远。

让我们深入探讨增材制造材料本身的重要性。

增材制造材料是指通过逐层堆积材料来构建物体的制造技术，其应用领域涵盖航空航天、医疗器械、汽车制造等诸多领域。

相比传统制造方式，增材制造材料具有生产周期短、制造成本低、产品复杂度高等优势，因而备受关注。

在当前科技迅速发展的背景下，增材制造材料的应用前景广阔，对产业结构和经济发展也将带来深刻影响。

在撰写本文时，我对国家重点研发计划对增材制造材料的支持和推动表达了浓厚的兴趣。

随着我对该主题的深入研究，我渐渐意识到了这一支持的重要性，以及增材制造材料在未来发展中的潜力。

我相信，随着国家重点研发计划的大力支持，我国在增材制造领域的突破将不可限量，为我国制造业的转型升级注入新的动力。

国家重点研发计划对增材制造材料的支持意义重大，增材制造材料的发展潜力巨大。

我在本文中从多个角度对这一主题进行了深度和广度兼具的评估，希望能帮助您更全面地了解和理解这一重要议题。

我相信，随着国家重点研发计划的持续推动，增材制造材料必将迎来更加广阔的发展空间，成为推动我国制造业高质量发展的重要力量。

增材制造材料作为一种前沿技术，正在逐渐改变传统制造业的格局，对于行业发展和经济增长有着不可忽视的影响。

行业资讯Industry Information 斜冠胂炎启急救治设施负屈病区建统技术导则（武行）》出台为进一步做好新冠肺炎疫情防控工作，指导地方 切实做好新冠肺炎应急救治设施建设和安全运行，2月27曰，国家卫生健康委、住房城乡建设部编制印发了《新 冠肺炎应急救治设施负压病区建筑技术导则（试行）》(以下简称《导则》）。

《导则》是根据《综合医院建筑设计规范》GB51039、《传染病医院建筑设计规范》GB50849等国家现行有关标准、规范和《新型冠状病毒肺炎应 急救治设施设计导则（试行）》等有关要求制订的。

《导 则》适用于新冠肺炎疫情防控期间应急救治设施负压病区的新建和改造。

《导则》明确了负压病区的主要构成，是由若干负 压病房、负压隔离病房及其配套用房、辅助用房和相应 室内公共空间组成。

对于新建和改造的负压病区，规定了不同的整体规划和流程布局，并提出相应条件。

《导则》要求，负压病区应按传染病医疗流程进行布局，且应根 据救治流程需要细化功能分区，基本分区应分为：清洁 区、半污染区、污染区。

《导则》强调，负压病区应严 格划分医务人员与患者的交通流线，流线应相对独立、避免相互影响，应合理划分清洁物品与污染物品流线。

《导则》规范了负压病区建筑、结构、给水排水、供 暖通风及空调、电气及智能化、医用气体等多方面设计要 求和技术参数，并提出了负压病区曰常运行维护相关要求。

两部门要求，各地可结合防疫工作和实际需要，在 新冠肺炎应急救治设施的新建和改造中参照执行，确保 相关设施安全、高效运行，为一线医护工作者提供安全 可靠的工作环境，为患者提供舒适便捷的就医环境，全 力保障疫情救治需要。

六部门联合发布《增材制逢柄准领航行动计划（2020-2022年）》2020年2月21日，国家标准化管理委员会、工 业和信息化部、科学技术部、教育部、国家药品监督管 理局、中国工程院六部门发布关于印发《增材制造标 准领航行动计划（2020-2022年）》的通知，提出到 2022年，立足国情、对接国际的增材制造新型标准体系基本建立。

制造业倍增行动内容
制造业倍增行动的内容主要包括以下几个方面：
1. 扩大项目投资增量：关键在于增量扩张，突出靠项目拉动。

这包括推动新一轮高水平技术改造，对企业实施符合产业发展导向的技术改造项目给予补助。

对现有企业新上固定资产投资超过一定金额的产业转型项目和技改项目，可比照招商引资政策给予奖励。

同时，加快新建项目落地，对实际总投资达到一定金额的战新产业制造类新建项目给予补助。

2. 补短板和锻长板：补短板主要是推动制造业三年倍增，坚定不移走工业强区、转型升级之路。

通过开展项目强基增量、企业梯度培育、产业赋能提升等行动，加快培育一批具有较强竞争力的龙头企业和支柱产业。

锻长板则是推动数字经济三年倍增，推进数字产业化和产业数字化，开展重点项目攻坚、“双招双引”攻坚等行动计划。

3. 抓招大引强和促延链强链：这是实现制造业三年倍增的保障措施之一，通过营造良好的干事氛围和优质的营商环境，加快实现一个项目“链”出一片产业。

以上内容仅供参考，具体的制造业倍增行动方案需要根据实际情况进行调整和完善。

南通增材制造项目实施方案（投资计划说明）清晨的阳光透过窗帘洒在案头，一摞摞资料和数据映入眼帘，关于南通增材制造项目的实施方案，此刻在我脑海中逐渐清晰起来。

一、项目背景南通，这座位于长江三角洲的美丽城市，有着得天独厚的地理位置和深厚的工业基础。

近年来，随着国家大力发展高端制造业，南通市政府也明确提出要打造具有核心竞争力的先进制造业集群。

增材制造，这个被誉为“第三次工业革命”的技术，正是我们这次项目的核心。

二、项目目标我们的目标很明确，就是要通过投资建设具有规模的增材制造生产线，打造一个集研发、生产、销售于一体的增材制造产业基地。

这个基地不仅要满足南通乃至周边地区的市场需求，还要辐射全国，乃至全球。

三、项目实施步骤1.前期筹备在这个阶段，我们需要完成项目可行性研究、编制项目建议书、申报项目审批等手续。

同时，要成立专门的项目团队，负责项目的整体策划和推进。

2.建设阶段这个阶段的主要任务是完成生产线的建设。

包括选购设备、安装调试、人员培训等。

在这个过程中，我们要确保生产线的质量和效率，为后续的生产打下坚实基础。

3.生产运营生产线建设完成后，我们将正式投入生产。

这个阶段，我们要优化生产流程，提高产品质量，同时积极拓展市场，实现产业的快速成长。

4.市场拓展市场是检验项目的唯一标准。

在这个阶段，我们要通过线上线下等多种渠道，积极推广增材制造产品，拓宽销售渠道，提高市场份额。

四、投资计划1.项目总投资根据初步测算，本项目总投资约为10亿元。

其中，设备投资占比最大，约为60%；是厂房建设、人员培训和市场营销等费用。

2.资金来源项目资金来源主要包括企业自筹、银行贷款和政策支持。

其中，企业自筹占比约为40%，银行贷款占比约为30%，政策支持占比约为30%。

3.投资回报预计项目投产后，年销售收入可达5亿元，净利润约为1亿元。

投资回收期约为5年，投资回报率约为20%。

五、风险评估与应对措施1.技术风险增材制造技术更新迭代速度较快，可能导致项目设备和技术落后。

附件7新材料关键技术产业化实施方案为加快培育和发展新材料产业，提高技术水平和核心竞争力，夯实制造强国建设基础，根据《增强制造业核心竞争力三年行动计划（2018-2020年）》，制定本方案。

一、主要任务和预期目标紧密围绕国民经济社会发展重大需求，按照自主创新、突破重点的思路，开展市场潜力大、附加价值高的重点新材料关键技术产业化，加快公共服务平台建设，提升新材料产业发展水平。

（一）先进金属及非金属材料1. 钢铁材料。

重点发展汽车用超高强钢板及零部件用钢，高铁关键零部件用钢，高性能硅钢，发动机用高温合金材料，海洋工程及高技术船舶用钢，核电关键装备用钢，大型压铸模用热作模具钢，极地环境用钢，大型水电用高级别压力钢管及蜗壳用钢，高炉渣提钛产钛白粉等产品。

2. 有色金属材料。

重点发展航空用轻合金材料，高端稀土功能材料，电子信息用关键材料，高端伺服电机用热压磁环及热压磁粉，核燃料贮存格架用铝基碳化硼中子吸收材料，新型稀有稀贵金属材料等产品。

13. 无机非金属材料。

重点发展石墨烯，8.5代TFT-LCD及以上玻璃基板，显示面板用高强盖板玻璃，钢化真空玻璃，高性能氮化硅陶瓷材料，高性能石英玻璃等产品。

（二）先进有机材料1. 高性能树脂。

重点发展聚碳酸酯、特种聚酯等高性能工程塑料，高碳α烯烃、茂金属聚乙烯等高端聚烯烃，高性能氟硅树脂及关键单体等产品。

2. 特种橡胶及弹性体。

重点发展溴化丁基橡胶、氢化丁腈橡胶、氟硅橡胶等高性能合成橡胶，聚烯烃类、氢化苯乙烯类、聚氨酯类等新型热塑性弹性体。

3. 功能性膜材料。

重点发展海水淡化处理用膜，锂离子电池用软包装膜，偏光片及配套膜材料，微棱镜型光学膜，聚乙烯醇缩丁醛胶膜等产品。

4. 高端专用化学品。

重点发展新一代锂离子电池用特种化学品、电子气体、光刻胶、高纯试剂等高端专用化学品。

（三）先进复合材料1. 高性能纤维材料。

重点发展高性能碳纤维，对位芳纶，超高分子量聚乙烯纤维，聚酰亚胺纤维，碳化硅纤维等产品。