星空·综合体育

生产领域是前提生产技術业的最重要组合个部分。近年来，生产领域正从傳統性生产向智能化生产、节能减排生活环保生产、AI+生产、精密五金生产、浅健康的环保生产二次创业期，生产新材质、新加工制作工艺 、新技術取得了很广操作，生产领域及技術的成长 壮大最受特别关注。2025年6月国内决议经由的《生产技術业浅健康的环保节能减排生活环保成长 壮大净网行动方式（2025-2024年）》，进两步明晰了浅健康的环保二次创业期目标方向，更加注重要越来越快浅健康的环保科技进步方法创新、进步傳統性领域浅健康的环保二次创业期、引领的新兴起来领域浅健康的环保成长 壮大、加大特殊性技術技术创新等，切实助推生产技術业浅健康的环保节能减排生活环保二次创业期提高。

11月14日，第 24 届各省 27 省（市、民族内蒙古自治区）5 市 1 地区划分制作学术讨论办公电视电话多媒体暨山东省第 36 次制作办公电视电话多媒体在山东晋城盛大举办。办公电视电话多媒体对焦“高新科技信息整合资源·制作未来的發展”主题词，来各省的制作制造服务行业有关专家、上司及客户家代表人300万人次共聚一节，共叙制造服务行业發展。北京市三帝高新科技信息控股股东局限装修公司承办方并参与活动办公电视电话多媒体。

在20日上午的大会论坛中，星空·综合体育 科技股份有限公司3D装备营销部总经理姜庆杰作了题为《无砂箱超大尺寸3D打印铸造砂模技术与装备》的主题报告，重点介绍了公司自主研发的3DPTEK-J4000设备，该设备采用创新的无砂箱柔性区域成型技术，突破性地实现了4米级超大尺寸砂模打印，为航空航天、电力能源等领域的大型铸件制造提供了创新性解决方案。

Figure: Jiang Qingjie, general manager of 3D equipment marketing department of SANDI Technology, delivered a theme report of "sandbox-free super-large-size 3D printing casting sand mold technology and equipment".

Figure: 4-meter 3DP sand printer 3DPTEK-J4000 凡此种种，为从而提高齐全化的市扬各种需求，三帝创新科技还从而提高1.8米、2.5米大尽寸砂型彩印机计划方案，以更低的组织投入和更短的交工周期，促进用户账户较大 容许地从而提高生产的力。

图：1.8米、2.5米3DP冶炼砂型印刷机

21号夜间，由山东三帝信息技术股份企业有现制的企业、晋省会地市博纳特锻造加工砂机体再生通过有现制的企业协同主办者的“三帝信息技术·博纳特之夜”款待答谢晚宴在广东省晋省会地市凤城国际金健康养生咨询中心召开。

图：深圳科学社会副院长、广东省设备建筑工程学习铸造工艺专业课程专家会会专家长侯华为集团答谢晚宴领导讲话稿

Photo: Dr. Zong Guisheng, Chairman of Beijing SANDI Technology Co.

图：河南科瑞重复进行資源结合进行比较有限厂家股东长吴恒山为欢迎宴会领导讲话稿

图：世界里制作聚集的主席、全国机制制造工业能够制作研究会执行主席长娄延春，长春科技公司创新院校副教务主任、宁夏机制制造工业能够制作专委会执行主席长侯华，三帝科技公司创新3D的装备渠道营销部总经历姜庆杰，博纳特总经历蔡复旦等为实地幸运大转盘活动内容得奖者授奖 [About SANDI TECHNOLOGY 3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national specialized, special and new "small giant" enterprise, and a typical application scenario supplier of additive manufacturing of the Ministry of Industry and Information Technology (MIIT). At the same time has laser and binder jet 3D printing equipment and materials technology and application process, business covers the development and production of 3D printing equipment, 3D printing raw materials development and production, 3D printing process technology support services, rapid finished parts manufacturing services, etc., the establishment of a complete 3D printing additive manufacturing industry chain, which is widely used in aerospace, electric power and energy, ships, pumps and valves, automobiles, rail transportation, industrial machinery, 3C electronics, rehabilitation and transportation, and industrial machinery, 3C electronics, and industrial machinery, and industrial machinery, and industrial machinery, and industrial machinery, and 3C electronics, and rehabilitation and transportation, industrial machinery, 3C electronics, rehabilitation and medical treatment, education and scientific research, sculpture and cultural creation and other fields.

(hereinafter referred to as "SANDI") recently announced that its self-developed 1.8-meter large-size sand 3D printing machine3DPTEK-J1800Successfully won the bidding of automation transformation project of Black Casting Division of FAW Casting Co. The project will be landed in FAW Casting Wuxi Branch, marking a solid step in promoting the application of 3D printing digital production in the field of automobile manufacturing between the two sides. 

The core equipment of this cooperation, 3DPTEK-J1800, is the main model of 3D casting overall solution of SANDI Technology, which combines a number of innovative technologies: high-speed vibration powder spreading technology, which significantly improves the efficiency and uniformity of powder spreading; high-performance molding process and intelligent algorithms, which guarantees the equipment to operate with high efficiency and ease of operation; Extra-large molding size (1800×1000×700 mm) and high precision (up to ±0.3mm) to meet the rapid manufacturing needs of large, complex sand molds; dual-cylinder alternating printing and negative pressure ink supply system, to achieve continuous and stable production of the equipment. The equipment is specially designed for the aerospace, automobile, ship pump valve, construction machinery and other fields of large size sand mold rapid manufacturing and small and medium batch casting production and design, can effectively meet the complex prototype research and development and industrialized production needs. 

Figure: 3DP sand case

Sand 3D printing technology empowers automotive manufacturing upgrade

In the field of automotive manufacturing, sand 3D printing technology is playing an increasingly important role: 1. Enhance the freedom of design and innovation efficiency, rapid manufacturing of engines, chassis parts and other design prototypes, accelerate the verification and optimization, shorten the R & D cycle; 2. Tackle the complex and precision parts manufacturing challenges, such as pump body, closed impeller and other traditional processes difficult to process parts, eliminating the restrictions on the release of the mold, improve the performance of the parts; 3. Achieve efficient and flexible small batch customization without the need for expensive molds; 4. Flexible small batch customization, without expensive molds, rapid response to market demand; 4. Protect the quality of core parts casting, direct printing of high-precision functional sand core (such as the internal structure of the engine block), to ensure the quality of castings. With its mature sand 3D printing technology, SANDI has provided solutions for many domestic and foreign automobile enterprises covering motor shells, lightweight frames, shells, cylinder blocks/cylinder heads, exhaust pipes and other serialized products, and has especially accumulated rich experience in the manufacturing of automobile powertrain, transmission parts and precision structural parts.

Figure: 3DP, SLS automotive sand case

Strong combination, common molding industry benchmarks

FAW Casting, as a leading enterprise in China's automobile manufacturing industry, has long been committed to the research, development and production of high-quality automobile parts and engineering machinery castings, and actively promote the transformation of intelligent manufacturing. The main body of this project, FAW Casting Wuxi Branch, focuses on the development and production of core castings for medium and heavy truck engines (such as cylinder blocks, cylinder heads, crankshafts, flywheels, etc.), and is in a leading position in the field of thin-walled high-strength cast iron production technology in China. The two sides have a long history of cooperation, as early as 2008, FAW Casting has introduced the SLS laser sand printing equipment of Longyuan Molding, a subsidiary of SANDY Technology, for the rapid trial production of complex products such as engine blocks and cylinder heads. The project manager of SANDI Technology said, "The winning of the bid is a full affirmation of SANDI Technology's 3D casting technology strength and service capability. We will make every effort to ensure the smooth implementation of the project, help FAW Casting to enhance the speed of new product development, improve product quality and production efficiency, and jointly make the project an industry application model of 3D printing digital production in the field of automobile manufacturing." With the development of the automobile industry in the direction of intelligence, lightweight and customization, 3D printing technology is deeply integrated into the whole life cycle of automobile manufacturing from conceptual design, R&D trial production to manufacturing and maintenance services. The cooperation between SANDI and FAW Casting will further promote the large-scale application of 3D printing technology in the field of automotive core parts manufacturing, and inject new kinetic energy for the industry's high-quality development. [About SANDI TECHNOLOGY 3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national specialized, special and new "small giant" enterprise, and a typical application scenario supplier of additive manufacturing of the Ministry of Industry and Information Technology (MIIT). At the same time has laser and binder jet 3D printing equipment and materials technology and application process, business covers the development and production of 3D printing equipment, 3D printing raw materials development and production, 3D printing process technology support services, rapid finished parts manufacturing services, etc., the establishment of a complete 3D printing additive manufacturing industry chain, which is widely used in aerospace, electric power and energy, ships, pumps and valves, automobiles, rail transportation, industrial machinery, 3C electronics, rehabilitation and transportation, and industrial machinery, 3C electronics, and industrial machinery, and industrial machinery, and industrial machinery, and industrial machinery, and 3C electronics, and rehabilitation and transportation, industrial machinery, 3C electronics, rehabilitation and medical treatment, education and scientific research, sculpture and cultural creation and other fields. In the field of high-end equipment manufacturing, the precision casting of key components has been a bottleneck that restricts the improvement of product performance. Whether it is the complex flow channel of ship pumps and valves, the high temperature resistant structure of aerospace power components, or the precision cavity of industrial machinery, the traditional casting process is faced with common challenges such as long mold development cycle, high cost, and difficulties in molding complex structures. Beijing SANDI Technology Co., Ltd (referred to as "SANDI Technology") unique 3DP + SLS composite sand casting technology, is a series of industry challenges for this breakthrough solution. The process creatively combines the advantages of two 3D printing technologies: the 3DP process for making high-precision outer molds, and the SLS process for molding complex inner cavities or fine piping cores. This combination of technologies not only realizes the structural complexity that is hard to reach by traditional processes, but also improves the strength of the sand core to 4-6MPa, which is much higher than the 1.5-2.5MPa level of traditional processes. In practical applications, this process has been successfully used in the high-precision manufacturing of complex structural parts for ship pumps and valves, aerospace power components, etc. Recently, Xinxin Casting, a subsidiary of SANDI Technology, successfully delivered a batch of highly difficult cast steel pump bodies for an industrial machinery customer. The structure of this batch of pump body is extremely complex, including several narrow inner cavities of only 2-3 millimeters in width, and need to withstand a casting temperature of up to 1750°C. The traditional casting method requires a production cycle of nearly 60 days. The traditional casting method requires nearly 60 days of production cycle, while the use of 3DP + SLS composite process, Xinxin casting only 20 days to complete the delivery of 10 products, in order to ensure the quality of the same time, the efficiency of the traditional process has increased by 3 times.

Previously, the technical reliability of the composite process has been verified in the aerospace field. The aircraft engine parts manufactured by SANDI Technology using this process have been successfully selected as a typical application list of additive manufacturing by the Ministry of Industry and Information Technology. While solving the complex oil circuit sand core printing problems, the process effectively overcomes the deformation of the traditional sand mold in the temperature return process, providing a new technical path for high-precision casting.

Supporting this innovative process is a system of 3D printing equipment independently developed by SANDI Technology. Among them.星空·综合体育:3DP Sand PrinterThe series is equipped with 400dpi ultra-fine printhead and precision motion control system, which can realize the highest printing accuracy of ±0.3mm. Through piezoelectric inkjet technology + high-resolution inkjet system + special binder, it realizes high-speed, precise and integrated molding of complex structural parts.

Figure: 1.6m, 1.8m, 2.5m, 4m 3DP Sand Printer

In addition, SANTI's self-developed星空·综合体育:SLS Selection Laser Sintering PrinterThe same outstanding performance. The sand pattern printed by this series of equipment is characterized by high precision and high strength, which is suitable for the manufacture of complex pipelines and oil pipeline structures. With stable and reliable operation, this series of equipment has provided solutions for more than a hundred domestic and foreign customers, and has been highly recognized.

Figure: LaserCore-5300/6000 Through the 3D casting factories and printing service centers in Xianyang, Shaanxi, Daiming, Hebei, Pingdingshan, Henan, Yulin, Guangxi, Rizhao, Shandong, Linzhou, Henan, Tongling, Anhui, etc., SANDI Technology has established the capability of full-size, multi-material, full-chain rapid manufacturing services, which can provide users in the fields of aerospace, electric power and energy, ships, pumps and valves, automobiles, rail transportation, construction machinery, etc., aluminum alloy, copper alloy, cast iron, aluminum alloy, copper alloy, cast iron, magnesium alloy, high-temperature alloy, titanium alloy and other materials, as well as casting sand, wax 3D printing services. [About SANDI TECHNOLOGY 3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national specialized, special and new "small giant" enterprise, and a typical application scenario supplier of additive manufacturing of the Ministry of Industry and Information Technology (MIIT). At the same time has laser and binder jet 3D printing equipment and materials technology and application process, business covers the development and production of 3D printing equipment, 3D printing raw materials development and production, 3D printing process technology support services, rapid finished parts manufacturing services, etc., the establishment of a complete 3D printing additive manufacturing industry chain, which is widely used in aerospace, electric power and energy, ships, pumps and valves, automobiles, rail transportation, industrial machinery, 3C electronics, rehabilitation and transportation, and industrial machinery, 3C electronics, and industrial machinery, and industrial machinery, and industrial machinery, and industrial machinery, and 3C electronics, and rehabilitation and transportation, industrial machinery, 3C electronics, rehabilitation and medical treatment, education and scientific research, sculpture and cultural creation and other fields.

In aerospace, automobile manufacturing, energy equipment and other fields, the production of large and complex castings has been a difficult problem. The traditional sand casting process has the disadvantages of long cycle time, high cost, insufficient precision, etc. It is also limited by mold development and manual operation. How to break through the technical bottleneck and realize efficient, accurate and green integrated manufacturing? SANDI Technology brings a new solution.

Breaking with tradition: 3DP sand printing technology for more freedom in manufacturing

SANDI Technology has independently developed and launched the3DPTEK - J2500 Sand PrinterIt adopts inkjet sand 3D printing technology, breaking the traditional process limitations, no mold development, digital moldless molding, molding size up to 2500×1500×1000mm, which can easily cope with the production needs of large and complex castings in the fields of aviation and aerospace, electric power and energy, ships, pumps and valves, and construction machinery.

highly accurate(math.) genusIntelligence to improve casting quality

High-precision printing: the use of precision motion control system and 400dpi ultra-fine printheads, precise control of multi-agency high-efficiency cooperative work, the highest printing accuracy ±0.3mm, reducing the traditional splicing process errors, to protect the complex structure of the integrated molding. Advanced Technology Integration: Piezo inkjet technology + high resolution inkjet system + special binder to realize high speed large format accurate printing. Automated process: from parameter setting to outputting finished products, the equipment can autonomously complete operations such as printing, testing and alarming, and support remote monitoring, the production process is safe and efficient, without manual guarding.

Efficient cost reduction(math.) genusPromoting Green Smart Manufacturing

Efficiency Improvement: Molding efficiency ≥ 210L/h, production efficiency is dozens of times of the traditional process, double working box design to further optimize the production capacity, to achieve 24-hour uninterrupted production. Cost reduction: eliminating the cost and time of mold development, reducing material waste by 30%, reducing the burden of enterprise production. Green Smart: Low energy consumption and low emission processes meet environmental requirements.

Wide range of application scenarios(math.) genusRealize unlimited design possibilities

Whether it is a shaped surface, an internal runner, or a complex structure with many holes, 3DPTEK - J2500 can handle it easily. Designers can get rid of the limitations of machining, with the help of 3D software to give full play to their creativity, and truly realize "what you think is what you get".

SANDY TECHNOLOGY 3D printing technology empowers casting

Enhance the ability of new product development: no metal molds, reduce the cost of new product development, shorten the production cycle; enhance the enterprise's ability to develop new products, new customers and the ability to grab orders for bulk orders. Rapid delivery of small-lot products: Low-cost, high-efficiency production of small-lot products through 3D printing or a combination of 3D printing and traditional processes. Reduce process validation risk: Reduce the risk of failure and mold repair time by validating the process before opening the metal mold. Rapid Manufacturing of Metal Molds: Rapid manufacturing of metal molds through 3D casting process, shortening the manufacturing cycle and reducing the manufacturing cost by more than 20%. Optimize the process, improve the technical level: meet the demand for lightweight, complex structure products, realize integrated molding, parts manufacturing into components manufacturing, to help casting enterprises to improve the technical level, increase the added value of products, and enhance the level of corporate profitability. Improve material utilization: Improve casting material utilization and reduce resource consumption. Enhance the corporate image and improve the production environment: reduce labor intensity and alleviate recruitment problems.

Why choose SANTI TECHNOLOGY?

Stable and reliable equipment, proven in the market: 30 years of experience in powder laying technology, stable and reliable equipment, proven in the market, some users have purchased 3D printers that have been successfully and stably running for more than 20 years. Meanwhile, we have mastered the "3DP+SLS+BJ+SLM" process: we have the typical application scenario of additive manufacturing of the Ministry of Industry and Information Technology - "3DP+SLS" composite sand molding process. Hands-on training, professional guidance: Provide comprehensive process guidance, equipment training, etc. through its multiple 3D manufacturing centers. Nationwide after-sales service, timely response: Through its multiple 3D manufacturing centers to provide timely after-sales service nearby, to ensure rapid response. Market synergy and resource sharing: help customers expand business opportunities and enhance market competitiveness. The full-size 3DP casting sand and SLS casting sand/wax series of printers independently developed by SANDI Technology can meet the manufacturing needs of products of different sizes and materials, and help users maximize their productivity with lower unit costs and shorter delivery times.

Figure: 1.6m, 1.8m, 4m 3DP casting sand printers

Figure: SLS Casting Sand/Wax Printer

Equipment order hotline: 13811566237

SANDY TECHNOLOGY Booth: Hall S8, Booth A06

The 23rd China International Foundry Expo will be held on May 20, 2025 at the Tianjin National Convention and Exhibition Center (No. 888, Guozhan Avenue, Xianshuigu Town, Jinnan District, Tianjin), and Beijing SANDY Technology Co.

High-precision, large-size 3DP sand printer星空·综合体育:3DPTEK-J2500

3DPTEK-J2500 is an industrial-grade 3D casting sand printer launched by SANDI Technology, with a large-size molding capability of 2500×1500×1000mm and a high-precision printing capability of ±0.3mm, which is suitable for the manufacture of large castings in the fields of aviation and aerospace, electric power and energy, ships, pumps and valves, and automobiles. The equipment adopts piezoelectric inkjet printing technology, high-resolution inkjet system and special binder formula, which can realize integrated molding of complex structures and avoid the loss of precision of traditional splicing process. Through digital moldless molding technology, it effectively reduces mold development costs and waste emissions, improves casting efficiency and quality, and helps enterprises achieve cost reduction and efficiency and sustainable development. The equipment adopts high-end core components to ensure long-term stable operation.

Sandless Box Large Size 3DP Sand Printer 3DPTEK-J4000

The sandbox-free large-size 3DP sand mold printer 3DPTEK-J4000 launched by SANDI Technology provides an efficient, high-quality and low-cost solution for the manufacturing of ultra-large castings with its disruptive technology. The device adopts sandbox-free flexible area molding technology, breaking through the traditional process of design space limitations, support for local printing, the maximum molding of 4 meters of sand molding, large size, thin-walled, multi-dimensional curved surfaces and complex cavities (such as the spiral cooling waterway) casting integrated molding, and the selling price is very cost-effective. At the same time to provide open-source material process, can be adjusted for the user on demand, supporting high-performance resin binder, curing agent, cleaning agent, to ensure the quality and stability of molding, and further reduce the overall cost.

In order to meet the diversified market demands, SANDI has self-developed 3DP casting sand and SLS casting sand/wax series printers in full sizes from millimeter to meter, which help users maximize productivity with lower unit cost and shorter delivery time.

Figure: 3DP Casting Sand Printer

Figure: SLS Casting Sand/Wax Printer

3D Castingservice

Based on 30 years of 3D printing service and casting experience, SANDI Technology has established full-size, multi-material, and full-chain rapid manufacturing service capabilities through 3D casting factories and printing service centers in Xianyang, Shaanxi, Daiming, Hebei, Pingdingshan, Henan, Yulin, Guangxi, Rizhao, Shandong, Linzhou, Henan, and Tongling, Anhui, etc., and can provide rapid R&D trial production and batch production of finished metal parts made of aluminum alloy, copper alloy, cast iron, cast steel, magnesium alloy, high temperature alloy, and titanium alloy, as well as casting sand and wax 3-D casting service. It can provide users in the fields of aerospace, electric power, ship pump valve, automobile, rail transportation, construction machinery, etc. with rapid research and development of finished metal parts made of aluminum alloy, copper alloy, cast iron, cast steel, magnesium alloy, high-temperature alloy, titanium alloy and other materials for trial production and batch production, as well as casting sand and wax 3D printing services.

Contact: 13811566237

Website:chendakj.cn

Address: Building 2, No.7 House, Jin Yi Street, Shunyi District, Beijing, China

[About SANDI TECHNOLOGY 3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national specialized, special and new "small giant" enterprise, and a typical application scenario supplier of additive manufacturing of the Ministry of Industry and Information Technology (MIIT). At the same time has laser and binder jet 3D printing equipment and materials technology and application process, three emperor technology business covers the development and production of 3D printing equipment, 3D printing raw materials development and production, 3D printing process technology support services, rapid finished parts manufacturing services, etc., to establish a complete 3D printing additive manufacturing industry chain, widely used in aerospace, electric power and energy, ships, pumps and valves, automobiles, rail transportation, industrial machinery, 3C additive manufacturing typical application scenarios, the Ministry of Industry and Information Technology, and the company is a leading supplier of additive manufacturing, Railway transportation, industrial machinery, 3C electronics, rehabilitation and medical treatment, education and research, sculpture and cultural creation and other fields.

2024 Innovative Technologies and Products for the Global Foundry Industry

2024 National Foundry Equipment Innovation Award

Award-winning products

Recently, Beijing 3DPTEK Technology Co.Ultra-large 3DP Sand Printer 3DPTEK-J4000Successful completion of installation and commissioning, in line with factory acceptance standards, will be delivered soon.

Figure: 3DPTEK-J4000 printing site

The equipment can effectively solve the efficiency and cost problems of large-size sand casting, providing a new solution for the industry. Traditional process in the production of large-size castings, usually need to split casting and then welding, increasing the design cost and time cost, but also prone to welding defects. 3DPTEK-J4000 adopts no sand box flexible area molding technology, support for local printing, the maximum can be molded 4 meters of the sand mold, can be completed in one piece of casting of large-size, complex structural parts, greatly improving production efficiency and casting quality, to meet the large size, high precision sand casting application needs. It can greatly improve production efficiency and casting quality, and meet the application requirements of large-size and high-precision sand castings.

In addition, the company also has 1.6 meters, 1.8 meters, 2.5 meters and other 3DP sand printer program to choose from, to meet the needs of different sizes of sand printing; at the same time to provide open source material process, can be adjusted for the user on demand; supporting the high-performance resin binder, curing agent, cleaning agent, to ensure that the molding quality and stability.

Equipment order hotline: 13811566237

3DPTEK-J4000 is especially suitable for large-size and batch casting manufacturing needs in aerospace, marine, electric energy, construction machinery, automotive (new energy) and other fields. In the aerospace field, it can be used to manufacture engine parts, spacecraft structural components, power units and other important parts, effectively solve the problem of molding oversized, multi-dimensional surfaces, complex structure of the workpiece, in the small batch of large-size mold manufacturing as well as special industry mold iterative upgrading of research and development on the traditional manufacturing process can not be compared with the advantages. In the field of electric power and energy, it can be used for the manufacture of large-size pressure-resistant complex cavity structure parts, large-size thin-walled lightweight parts and so on. In the automotive field, it can realize the manufacture of large-size thin-walled motor shells with complex spiral cooling waterways, lightweight frames, and complex internal cavity structure shell cylinder/cylinder head.

[About SANDI TECHNOLOGY 3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national "specialization, specialization and innovation" small giant enterprise, the Ministry of Industry and Information Technology additive manufacturing typical application scenarios. At the same time has laser and binder jet 3D printing equipment and materials technology and application process, business covers 3D printing equipment, raw materials development and production, 3D printing process technology support services, metal parts rapid manufacturing services, etc., to establish a complete 3D printing additive manufacturing industry chain, widely used in aerospace, ships, pumps and valves, automotive, electric power and energy, industrial machinery, rail transportation, 3C, electronics, education and research, sculpture, culture and creativity, and so on. electronics, education and scientific research, sculpture and cultural creation, rehabilitation and medical industries.

As a leader and application promoter of 3D printing technology, SANDY TECH.Has received investment support from well-known funds such as Jinke Junchuang, Zhongjin Capital, Zhongke Haichuang and Become Capital.The

Industry Applications

Hotline: Manager Han 13811566237

In today's industrial manufacturing field, technological innovation is driving industrial upgrading at an unprecedented rate. Among them, binder jetting (BJ) technology, due to its advantages of moldless manufacturing, high efficiency, low cost, and large-size parts manufacturing, is changing the traditional production mode, and showing great potential for batch industrialization application, becoming a new quality of productivity empowering the traditional industry.
In recent years, BJ technology has grown rapidly with the enrichment of material systems and breakthroughs in technological processes. According to SmarTech's prediction, by 2030, the global output value of BJ technology can reach 54 billion U.S. dollars (about 350 billion yuan).BJ binder jet is a 3D printing technology based on the powder bed process and inkjet principle, and the printed prototype parts (green blanks) are used to complete binder removal and densification of the blanks by using the degreasing and sintering process of the MIM (metal injection molding) technology to obtain the final part. As a high-efficiency, low-cost 3D printing technology, BJ technology combines the freedom and efficiency advantages of 3D printing and is also compatible with the standardized material system of powder metallurgy. Thus, it can play an important role in enhancing the manufacturing capability of traditional powder metallurgy, reducing costs, accelerating the R&D cycle, and realizing the manufacturing of complex structures and large-size products.

Image from: Colibrium Additive / GKN Additive

International manufacturers are optimistic about the market potential of BJ technology and have entered the market.GE General Electric has been laying out BJ technology since 2016, after its Colibrium Additive launched the Series 3 metal binder jetting system. It cooperates with automobile manufacturers to produce lightweight and high-performance automotive parts and enhance the performance of the entire vehicle.HP HP launched HP Metal Jet technology in 2018 based on its thermal inkjet (TIJ) expertise and launched HP Metal Jet S100 metal printing solution four years later.GKN Additive adopts HP Metal Jet technology for automotive and industrial parts mass production, and MIM industry leader Parmatech uses HP Metal Jet technology for the manufacture of complex shaped precision surgical tools.

Figure: SANDY TECHNOLOGY BJ Metal/Ceramic Printer 3DPTEK-J160R, 3DPTEK-J400P/800P

As a large manufacturing country, China's market demand for BJ technology is more urgent. The leading domestic 3D printing equipment and rapid manufacturing service provider Beijing SANDI Technology Co., Ltd. independently masters the key technologies of BJ technology equipment, materials, processes, etc., and has mature technology and experience in small particle size powder placement, powder bed densification enhancement, high dimensional accuracy control, binder material system development, and degreasing sintering process. The company's self-developed 3DPTEK-J160R/J400P/J800P serialized binder jet printing equipment and its molding process integrates a precise feeding system, a high density powder laying system and a high-precision inkjet printing control system, which solves the key common technologies of small particle size and low mobility powder laying and molding density and breaks through the key technologies of high-resolution and high-precision inkjet control, and can realize 800-1200dpi high-resolution printing and molding, molding accuracy is better than ±0.1mm, molding efficiency up to 3600cc/h, the relevant technical indicators have reached the international advanced level.

Figure: BJ metal sample

SANDI Technology has gradually formed a sound binder material molding process system in years of BJ technology research. Based on more than 20 kinds of process formulas formed by two major types of water-based environmentally friendly binder and solvent-based high-efficiency binder, we have carried out systematic research and analysis on the physical and chemical properties of the binder and the interaction between the binder and the powder, and developed corresponding molding processes and post-processing processes such as degreasing and sintering, which have realized a complete and complete molding process applicable to stainless steel, tool steel, titanium alloys, copper alloys, high-temperature alloys, hard alloys and other metal materials, silicone carbide ( SiC) and other ceramic materials, as well as PMX crystalline wax, inorganic salts, food, pharmaceuticals, polymer composites and other non-metallic materials molding process. Meanwhile, through the systematic research on high density degreasing and sintering molding process, we have realized the shape and property control of metal and ceramic products in the process of degreasing and sintering, and realized the precise control of the quality of the finished products after degreasing and sintering, and the performance of the products is better than the mechanical properties of the MIM international material standard.

Figure: BJ ceramic sample

At the same time of realizing independent technological innovation, SANDI Technology gradually completes the construction of BJ standard manufacturing process, and establishes distributed printing service centers across the country to develop product manufacturing process based on BJ technology for customers, and promotes its application to the market. In addition, the company jointly with the Shenzhen Vocational and Technical University to build a joint laboratory of additive manufacturing technology, combined with Shenzhen Tsinghua University Research Institute, Shanghai Jiao Tong University, University of Science and Technology in Beijing and other research institutes and related teams to jointly carry out binder jet molding and other materials, process and application of basic technology research, and to promote the industrialization and application of the industrial molds, cutting tools, 3C electronic products, and complex, shaped and large-size ceramic products and other fields. Industrialization application. In the field of 3C electronics, the market demand for increasingly diversified, complex and refined products has posed challenges to manufacturing technology, and traditional manufacturing technology has many limitations such as high manufacturing difficulty, low yield, high cost, etc., especially titanium alloys and other difficult-to-machine lightweight materials are even more difficult to realize. SANDI Technology has successfully broken through the traditional titanium alloy forming manufacturing technology barriers, based on BJ technology to achieve the rapid prototyping manufacturing of titanium alloy and other active metals, to realize the complex structure of 3C electronic product parts and components fast near-net shaping at the same time to simplify the manufacturing process and reduce the production and manufacturing costs.

Chart:Based on SANTI TechnologyautonomyBJskillfabrication(used form a nominal expression)Typical 3CProduct ComponentsMinimum structural scale 0.4mm, sintered densities better than 99%

In the field of food and drugs, in response to the growing demand for diversified, personalized and precise dietary markets, SANDI Technology, in conjunction with the Institute of Agricultural Products Processing of the Chinese Academy of Agricultural Sciences, carries out research on the adaptability of technology and equipment and equipment integration based on the self-developed BJ equipment, develops easy-to-swallow food made of food hydrogel and special shaped food made of food-based particles and carries out comprehensive evaluations of its safety and reliability. Comprehensive evaluation, and ultimately realize the industrialization demonstration application of personalized food additive manufacturing and intelligent processing equipment.

In the field of molds, for the problem of the difficulty of manufacturing molds with complex surfaces and fine texture structures, based on SANDI's BJ technology, it can realize the manufacturing of metal molds with high complexity and fineness in the scale range of 300mm×200mm×150mm, with the minimum texture expression scale of about 0.26-0.3mm, and at the same time, it breaks through the technology of sintering and densification of large-size atypical structural metal parts to realize At the same time, we have broken through the sintering densification technology for large-size non-typical structural metal parts, and realized the shape-controlled sintering with sintering performance meeting the requirements of practical applications.

With the continuous progress and innovation of technology, BJ technology is expected to play a more critical role in the future of industrial manufacturing, and its positive impact on manufacturing costs, efficiency and quality will certainly further promote this technology in 3C electronics, molds, automobiles, hardware, tools, cutting tools, medical equipment, sports equipment and other industries to form a hundred billion scale of industrialized applications.

[___About SANDI Technology]

3D Printing Technology, Inc. is a 3D printing equipment and rapid manufacturing service provider, a national "specialization, specialization and innovation" small giant enterprise, the Ministry of Industry and Information Technology additive manufacturing typical application scenarios supplier. At the same time has laser and binder jet 3D printing equipment and materials technology and application process, business covers 3D printing equipment, raw materials research and development and production, metal parts rapid manufacturing services, 3D printing process technology support services, etc., to establish a complete 3D printing additive manufacturing industry chain, widely used in aerospace, ship pumps and valves, automotive, energy power, industrial machinery, rail transportation, 3C, electronics, education and research, sculpture, culture and creativity. electronics, education and scientific research, sculpture and cultural creation, rehabilitation and medical industries.     In the process of global active response to climate change, towards sustainable development, the integration of 3D printing and casting for the green upgrade of China's foundry industry has brought a key opportunity, this change is closely linked to the dual-carbon goals, it is urgent to carry out systematic planning and promotion from the national policy level, especially combined with China's large foundry industry base and unique manufacturing cluster advantages.

Green casting sand mold made by △3DP sand printing process

Huge base of industry scale

China as a global casting country, has a strong basic industrial volume, there are more than 24,000 casting enterprises, casting production accounted for the world 45%. According to the China Foundry Association data, in 2023, China's total output of all types of castings 51.9 million tons. Such a large industrial scale, the formation and development of foundry industry clusters provide a solid foundation, the agglomeration of many enterprises has produced economies of scale, reducing production costs and improving production efficiency.

Complete industry chain support

The casting industry has a long industrial chain, covering upstream raw material suppliers and equipment suppliers, midstream casting enterprises, and downstream numerous application fields. China's foundry industry cluster within the enterprise division of labor is clear, close collaboration, the formation of a complete industrial chain supporting. For example, in Henan and other places in the foundry industry cluster, not only a large number of foundry enterprises, and the provision of pig iron, scrap steel and other raw material suppliers, as well as the production of foundry machinery, machining equipment, testing equipment, this complete industrial chain makes the transaction costs between enterprises to reduce the shortening of the production cycle to respond quickly to the market demand, and enhance the overall competitiveness of the cluster.

Rich technical and human resources

After years of development, China's foundry industry cluster has accumulated a wealth of technology and human resources. On the one hand, the cluster enterprises in the long-term production practice of continuous exploration and innovation, the formation of their respective core technologies and techniques, such as some areas in the sand casting, precision casting, die casting and other areas with unique technical advantages; On the other hand, the cluster attracted a large number of professionals, including skilled workers, engineers, researchers and so on, they provide intellectual support for the enterprise's technological research and development and innovation. At the same time, the talent flow and technical exchanges between enterprises in the cluster are also more frequent, promoting the dissemination of technology and innovation, and is conducive to enhancing the technical level of the cluster as a whole.

Strong market radiation capability

China's casting industry cluster is widely distributed, and mostly concentrated in economically developed, convenient transportation areas, such as the Yangtze River Delta, the Pearl River Delta, etc. These areas have a superior geographic location and a good market environment, able to radiate the national and even global markets. The Yangtze River Delta casting industry cluster, for example, the production of castings not only to meet the domestic automobile, machinery and equipment industries such as a large number of needs, but also exported to Europe and the United States, Southeast Asia and other international markets, a strong market radiation capacity for the development of industrial clusters provides a broad space, prompting the enterprise to continue to expand the scale of production, improve product quality and market share.

Policy support and industry guidance

The state attaches great importance to the development of the foundry industry, the introduction of a series of related policies, such as the "14th Five-Year Plan" in the foundry industry digital transformation and development of clear goals, including the use of 3D printing technology by 2025 to produce more than 500,000 tons of castings, and so on. These policies provide strong support for the development of foundry industry clusters, guiding the development of industry clusters to high-end, intelligent, green direction, promoting the optimization and upgrading of industrial structure, and enhance the overall competitiveness of the cluster.

Regional brand effect

Some well-known foundry industry clusters have formed a regional brand effect, such as Botou's "China Foundry City", Jiaozuo's cylinder liner, "Henshan Casting", "Linzhou Casting" and so on. These regional brands have a high degree of visibility and reputation in the market, to attract more customers and resources for the cluster enterprises to bring more opportunities for development. At the same time, the construction of regional brands also prompted enterprises to pay more attention to product quality and brand image, strengthened cooperation and self-discipline among enterprises, and is conducive to maintaining the overall interests of the cluster and the market order. China's foundry enterprises all over the world, forming a number of distinctive characteristics of China's manufacturing clusters. For example, in Henan Province, Xinxiang City has an annual output of 55,000 tons of large cast steel parts, with an export volume of more than 30%, Hui County has more than 100 casting enterprises, with a production capacity of more than 1.3 million tons; Pingdingshan Jiaxian is known as the capital of China's cast-iron pots ...... These clusters in the long-term development process, has accumulated a wealth of production experience and industrial resources, but at the same time also faced with the traditional casting process brought about by high energy consumption, high pollution and waste of resources and other issues. According to statistics, the traditional casting process in the material utilization rate there is greater room for improvement, and energy consumption intensity is higher, which not only increases the production cost of enterprises, but also on the environment has caused greater pressure, and China's dual-carbon goals to achieve a certain contradiction .

3D printing + casting new quality productivity

From the perspective of efficiency, pollution reduction and cost reduction, 3D printing + casting has green attributes and advanced nature:

improve efficiency

- Significantly shorten the production cycle: a company using "3D +" casting process, the production cycle shortened by 60% or more, such as core compressor cylinder production cycle shortened from 48 days to 12 days, the L-shaped bed shortened from 45 days to 15 days. - Significant increase in capacity: "3D+" casting process capacity increase of 50%, doubling the efficiency, can quickly respond to market demand, improve the competitiveness of enterprises. - Rapid prototyping: sand 3D printing technology can produce complex sand patterns in a short period of time, and quickly complete the production of prototype parts, such as a new energy vehicle enterprises trial production of water-cooled motor shells for commercial trucks, the use of 3DP sand printing delivered in 10 days, compared with the traditional process of 60 days of the production cycle has been shortened by 83%.

pollution reduction

- Material waste reduction: 3D printing on-demand manufacturing, support sand online recycling, sand utilization rate up to 95% or more, reducing the waste of raw materials in the traditional mold making process. - Dust pollution reduction: SANDI technology sand 3D printing equipment in the production process can effectively reduce the generation of dust, with recycled sand and other environmentally friendly materials, help foundries to realize green manufacturing.

reduce costs

- Mould cost reduction: In traditional casting, the cost of instrument panel mould is 700,000-1,000,000 RMB, bumper mould is 350,000-700,000 RMB, and engine parts mould is 150,000-600,000 RMB or even higher, while 3D printing sand mould is low cost, flexible in design modification, and does not require expensive mould manufacturing cost. - Reduced labor costs: The automation of the 3D printing process reduces the reliance on manual operation and human error, reducing labor costs, such as the 3D printing equipment of SANDI Technology can be operated with only simple training, without the need for a large number of manpower synergies. - Reduced energy consumption: 3DP printing process 3D printing technology consumes less energy than sand core manufacturing and injection molding equipment. Compared with injection molding, 3DP printing sand molding is through the nozzle spray binder will sand bonding molding, without the need for injection molding like the material for a long time heating and melting and other processes, so the energy consumption is greatly reduced. Compared with 3DP printing sand mold, traditional sand core manufacturing in the hot core box method core, need to make the core box to keep at 200 ℃ -300 ℃, let the core sand shot into the core box, ammonium chloride in the higher temperature and the resin in the free formaldehyde reaction to generate acid, so that the core hardened very quickly, the process of energy consumption. While 3DP printing sand mold process, the sand does not need to be heated to such a high temperature, and the equipment itself is relatively low energy consumption.

△Green fast casting plant after upgrading 3DP sand printing process

SANTI Technology helps 3D casting

In this context.星空·综合体育:3D Printing Technology, Inc.The exploration and practice of the industry provides useful reference for the development of the industry. Three Emperor Technology has achieved remarkable results by acquiring six traditional foundries and introducing 3D printing technology to promote their transformation and upgrading. In the production process, the precise characteristics of 3D printing technology greatly improves the utilization rate of materials, effectively reduces the carbon emissions from the mining of raw materials to the processing of each link, reduces the impact on the environment, which is an important demonstration of China's foundry industry to reduce the intensity of resource consumption, improve the efficiency of resource utilization, and the relevant departments of the state to promote the green development of the industry, optimize the industrial structure of the policy direction of a high degree of compatibility.

Analyzed from the perspective of energy consumption, the repeated processing and correction processes in the traditional casting process lead to high energy consumption, while 3D printing-assisted casting simplifies the production process and reduces energy demand. The country has been committed to the reform and development of the energy sector, introduced a series of policy measures to improve energy efficiency and promote the application of clean energy. Foundry enterprises using 3D printing technology, can better synergize with these energy policies, such as the introduction of energy-saving 3D printing casting equipment, and combined with clean energy power supply, to further reduce carbon emissions, help the foundry industry green optimization of the energy structure, for the realization of the dual-carbon goals of total energy consumption and intensity of "double control" play a positive role. Role. In the promotion of technological innovation, the development of China's manufacturing industry can not be separated from the depth of the application of emerging technologies in traditional industries and integration of innovation. State in the "14th Five-Year Plan" period, the Ministry of Industry and Information Technology and other departments have issued "on the promotion of casting and forging industry high-quality development of the guiding opinions" for the development of the industry to point out the direction of the industry, such as the promotion of intelligent transformation, to create intelligent manufacturing demonstration factories; to help the green development, adjusting the production capacity replacement policy; to support the development of high-quality enterprises, cultivate specialties, specialties, new "small giants" and manufacturing single champion; the development of industrial clusters, cultivate casting characteristics of industrial clusters and so on. For 3D printing + casting this innovative model, the relevant state departments attach great importance to the R & D investment, personnel training and technology promotion and other aspects of increasing policy support, continuation and deepening of the "14th Five-Year Plan" development strategy to the "15th Five-Year Plan" and beyond. Stage. Through the establishment of a special R & D fund to encourage universities, research institutions and enterprises to carry out in-depth cooperation between industry, academia and research, and jointly overcome technical problems, accelerate the maturity of green casting technology and application of popularization, enhance the overall technical level of China's foundry industry, enhance the low-carbon competitiveness in the international market, drive the high-quality development of industry with technological innovation, and to realize the transformation from a large casting country to a strong casting country, and specialize in specialties and special new technologies. The practical achievements of "small giants" SANDI Technology also provide a realistic reference for the precise implementation and optimization of the policy. From the perspective of industrial cluster development, the relevant state departments can give full play to the advantages of China's manufacturing clusters to guide the establishment of 3D printing + casting green industrial park. Based on the foundry purchased by SanDi Technology and the industrial cluster where it is located, attract upstream and downstream related enterprises to move into the park, forming a complete green industry chain ecology. In the park, we centrally configure perfect infrastructure and environmental protection facilities, realize centralized waste treatment and recycling, and build a closed loop of green industry chain. Enterprises share 3D printing technology resources, energy management system, etc., can effectively reduce overall operating costs and carbon emissions, while facilitating the unified supervision and promotion of green casting standards, promote the green and low-carbon synergistic development of enterprises within the cluster, to become a demonstration sample of the green transformation of China's traditional foundry industry under the dual-carbon goal, to promote the comprehensive green change of the national foundry industry, and to realize the carbon peak and carbon neutrality goals for China. Carbon peak, carbon neutral target to provide solid industrial support and strong policy practice examples, and further highlight China's leading position in the field of global green manufacturing and the role of great powers.