3D Systems
制造未来
概述
总部
美国
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成立年份
1986
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公司类型
上市公司
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收入
$100m-1b
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员工人数
1,001 - 10,000
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网站
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股票行情
NYSE: DDD
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推特句柄
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公司介绍
3D Systems 提供先进且全面的 3D 数字设计和制造解决方案,包括 3D 打印机、打印材料和云采购的定制设计零件。他们全面的 3D 打印机系列是航空航天、汽车、患者特定医疗设备和各种配件的生产级制造的行业基准。
物联网解决方案
3D Systems 释放了我们每个人的潜力,以改变我们的工作、学习和生活方式。作为 3D 打印的鼻祖和 3D 解决方案的未来塑造者,他们用 30 年的历史使 3D 技术易于使用、高效且令人满意,使世界各地的创新者能够将想法转化为切实的成果。 3D Systems 的产品和服务颠覆了传统方法,提供了更好的结果,并让客户能够立即制造未来。他们强大的生态系统通过使用户能够使用其广泛的材料选择(包括塑料、弹性体、金属和生物相容性材料)将他们的想法变为现实,从而改变了整个行业。 3D Systems 领先的个性化医疗功能包括端到端模拟、培训和规划,以及患者特定手术器械和医疗和牙科设备的打印。他们的 3D 数字设计、制造和检测产品提供了无缝的互操作性,并融合了最新的沉浸式计算技术。
主要客户
GE Consumer & Industrial、Micron Technology、NASA、Sanmina-SCI、Teleflex Marine
物联网应用简介
技术栈
3D Systems的技术栈描绘了3D Systems在等物联网技术方面的实践。
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设备层
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边缘层
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云层
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应用层
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配套技术
技术能力:
无
弱
中等
强
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实例探究.
Case Study
3D Printed Prototypes Streamline Equipment Introduction
Vauxhall set out to introduce a modified process hanger with a new part that would be used to support each vehicle body throughout the production process. This part is a critical piece and had to perfectly fit both the machinery and the auto body to create correct clearances and avoid damage during production.
Case Study
Revolutionizing Medical Training in India: GSL Smart Lab and the LAP Mentor
The GSL SMART Lab, a collective effort of the GSL College of Medicine and the GSL College of Nursing and Health Science, was facing a challenge in providing superior training to healthcare professionals. As clinical medicine was becoming more focused on patient safety and quality of care, the need for medical simulation to bridge the educational gap between the classroom and the clinical environment was becoming increasingly apparent. Dr. Sandeep Ganni, the director of the GSL SMART Lab, envisioned a world-class surgical and medical training center where physicians and healthcare professionals could learn skills through simulation training. He was looking for different simulators for different specialties to provide both basic and advanced simulation training. For laparoscopic surgery, he was interested in a high fidelity simulator that could provide basic surgical and suturing skills training for international accreditation as well as specific hands-on training in complex laparoscopic procedures for practicing physicians in India.
Case Study
Implementing Robotic Surgery Training Simulator for Enhanced Surgical Proficiency
Fundacio Puigvert, a leading European medical center specializing in Urology, Nephrology, and Andrology, faced a significant challenge in training its surgical residents. The institution recognized the need for a more standardized and comprehensive training curriculum, particularly in the area of robotic surgery. The challenge was underscored by two independent studies showing that less than 5% of residents in Italian and German residency programs could perform major or complex procedures by the end of their residency. The institution sought to establish a virtual reality simulation lab that would include endourological, laparoscopic, and robotic platforms. However, they needed a simulator that could replicate both the hardware and software of the robotic Da Vinci console used in the operating room, without being connected to the actual physical console. They also required a system that could provide both basic and advanced simulation training, and a metrics system to assess the proficiency of the trainees before they performed surgical procedures in the operating theater.
Case Study
Digital Transformation in Orthotic and Prosthetic Design and Manufacturing
The orthotics and prosthetics (O&P) industry has been largely dominated by manual craftsmanship. The challenge was to introduce digital technologies to orthotic and prosthetic design and manufacturing to support manual processes with digital workflows and tools. The two main challenges for orthotists and prosthetists were the production of the correct function and the suitability to the patient’s size and strength ratio, and developing an interface to the human body that can transfer and absorb force without causing chafing or similar irritations. The traditional workflow to produce a prosthetic begins with molding the body part with plaster, which maintains a few advantages over direct 3D scanning of the patient's limb. However, due to the high degree of manual work and experience orthotists and prosthetists bring to their work, it is nearly impossible to exactly replicate a good outcome.
Case Study
High Density Stacking Capability Enhances Productivity in 3D Part Production at Decathlon
Decathlon, the world’s largest sporting goods retailer, was faced with a mold injection problem on a small component for shooting glasses that connects the frame to the lenses. The company was seeking a solution that would avoid the expense of tooling and increase efficiency in production. They decided to test the new 3D stacking solution developed by 3D Systems to evaluate additive manufacturing for production. After conducting a feasibility study on the Figure 4 solution and stacking feature, Decathlon’s teams confirmed the productivity and economics of additive manufacturing and decided that this solution could be considered for batch-run production of the final product.
Case Study
Implementing Robotic Surgery Training in Matto Central Hospital, Japan
Matto Central Hospital in Hakusan, Japan, established in 1948, was facing a significant challenge in training its physicians on new robotic surgery techniques for prostatectomy and other procedures. The hospital had recently acquired the da Vinci robotic surgery equipment, which required hands-on training and experience. However, being a relatively small hospital, finding the budget for a simulation lab was a significant hurdle. Despite the financial constraints, the hospital recognized the importance of a robotic skills lab, especially for the surgical residents who found it attractive.
同类供应商.
Supplier
LUTZBOT
Proven TechnologyTens of thousands of people in 85 countries around the world rely on award-winning LulzBot 3D printers, parts, and plastics to get the job done. We proudly serve Fortune 500 companies, NASA and other agencies, small businesses, universities, libraries, and hackers. Open Source Hardware communities are at the core of everything we do. Collaboration enhances every product we offer.Open for AllWe are committed to respecting your freedom. That's why our products come with freely licensed designs, specifications, and documentation so your machine can be understood, modified, and shared as we make improvements together. We partner with leading organizations like Open Source Hardware Association (OSHWA.org) to advance collaborative technology.