大学合作

Quintus Technologies 与大学合作,注重研究、专业知识共享和培训,所有这些促使 Quintus Technologies 位列行业最前沿。

Quintus Technologies 与大学的高压技术合作

Quintus Technologies 非常重视与大学合作,提升高压技术及其在制造业的应用。通过这些合作,Quintus Technologies 与领先的研究所共同开发尖端研究项目,共享知识和专长,培育下一代高压技术工程师和研究人员。

接触新研究

大学合作让 Quintus Technologies 有机会接触最尖端的研究、最优秀的人才,能够获得额外的研发经费,推动高压技术创新。

创新机会

大学合作有利于 Quintus Technologies 通过充分利用双方的专长开发创新解决方案,维持其在制造业高压技术领域的领导地位。

利用有才能的人

大学合作有利于 Quintus Technologies 吸引最优秀的人才,通过接触新颖的观点和创造性的思维推动高压技术创新。

增加经费/资源

大学合作为 Quintus Technologies 提供额外的经费和资源,推动高压技术的创新和增长。

大学合作

美国宾夕法尼亚州立大学

宾夕法尼亚州立大学是各种增材制造技术领域公认的学术领导者和研发中心。  其中一个专业领域是过程-结构-性能关系的表征以及热等静压等后加工技术在各种重要结构材料系统中的使用。Quintus 一直是这项工作的重要合作伙伴,而这也使我们进一步了解后加工对开发设计允许的性能的作用以及关键应用的重要合金系统的后加工路线。

美国得克萨斯大学埃尔帕索分校的 W.M. Keck 3D 创新中心

Keck 中心位于 UTEP 校区,是增材制造研究领域的领导者,与行业其他领导者密切合作,开发并推广增材制造工艺。他们对先进的后加工热处理技术、由此对微观结构和各种机械特性(比如抗拉强度和疲劳度)的影响尤其感兴趣。

美国亚利桑那大学

亚利桑那大学的材料科学与工程 (MSE) 系是增材制造、光学材料、能源转换和热控制材料以及加工和制造领域排名靠前的领先开发机构,在航空航天和特超音速应用上独树一帜。他们掌握的 HIP 和 HPHT 知识与应用已促成与 Quintus Technologies 的数次合作,包括 SLM L-PBF F357 的 HPHT。

田纳西州橡树岭国家实验室

橡树岭国家实验室在推动不断改变世界的能源和国家安全突破方面是全球最好的研究所之一。Quintus Technologies 与制造示范设施 (MDF) 和电池制造设施 (BMF) 的密切合作为现代化的 HIP 设备用于增材制造以及等静压加工加入固态电池生产带来巨大进步。

研究文档

查看全部

技术出版物

Technical Publication

High Pressure Prepares Parts for Space

Technical Publication

HIP Innovation Maximizes AM Medical Potential

Technical Publication

Hot Isostatic Pressing and AM: How to improve product quality and productivity for critical applications

Technical Publication

Hot isostatic pressing and heat treatments of LPBFed CoCuFeMnNiTi0.13 high-entropy alloy:microstructure and mechanical properties

Technical Publication

Impact behavior of gravity cast AlSi10Mg alloy: Effect of hot isostatic pressing and innovative high pressure T6 heat treatment

Technical Publication

Status from the Industry: What’s HIP in HIP?

Technical Publication

Heat Treat Tomorrow — Hydrogen Combustion for Heat Treating: Reality or Smoke?

Technical Publication

Overcoming Challenges and Finding Success in Latin America’s First HIP Batch

Technical Publication

CFC Fixture Advantages and Challenges in Vacuum Heat Treatment, Part 2

Technical Publication

The Debate Continues: ±.1°F

Technical Publication

Super-Solidus Hot Isostatic Pressing Heat Treatments for Advanced Single Crystal Ni-Base Superalloys

Technical Publication

Effects of the solution and first aging treatment applied to as-built and post-HIP CM247 produced via laser powder bed fusion (LPBF)

Technical Publication

Robust Metal Additive Manufacturing Process Selection and Development for Aerospace Components

Technical Publication

Hot Isostatic Pressing for Fatigue Critical Additively Manufactured Ti-6Al-4V

Technical Publication

On the Anisotropic Impact Behavior of an Additively Manufactured AlSi10Mg Alloy in Different Heat Treatment Conditions

Technical Publication

Titanium aluminides processing by additive manufacturing – a review

Technical Publication

Influence of high initial porosity introduced by laser powder bed fusion on the fatigue strength of Inconel 718 after post-processing with hot isostatic pressing

Technical Publication

Metal Additive Manufacturing in Aerospace: A review

Technical Publication

Microstructure evolution and mechanical response-based shortening of thermal post-treatment for electron beam melting (EBM) produced Alloy 718

Technical Publication

Productivity enhancement of laser powder bed fusion using compensated shelled geometries and hot isostatic pressing, Ti-6Al-4V

Technical Publication

High Pressure Prepares Parts for Space

Technical Publication

HIP Innovation Maximizes AM Medical Potential

Technical Publication

Hot Isostatic Pressing and AM: How to improve product quality and productivity for critical applications

Technical Publication

Hot isostatic pressing and heat treatments of LPBFed CoCuFeMnNiTi0.13 high-entropy alloy:microstructure and mechanical properties

Technical Publication

Impact behavior of gravity cast AlSi10Mg alloy: Effect of hot isostatic pressing and innovative high pressure T6 heat treatment

Technical Publication

Status from the Industry: What’s HIP in HIP?

Technical Publication

Heat Treat Tomorrow — Hydrogen Combustion for Heat Treating: Reality or Smoke?

Technical Publication

Overcoming Challenges and Finding Success in Latin America’s First HIP Batch

Technical Publication

CFC Fixture Advantages and Challenges in Vacuum Heat Treatment, Part 2

Technical Publication

The Debate Continues: ±.1°F

Technical Publication

Super-Solidus Hot Isostatic Pressing Heat Treatments for Advanced Single Crystal Ni-Base Superalloys

Technical Publication

Effects of the solution and first aging treatment applied to as-built and post-HIP CM247 produced via laser powder bed fusion (LPBF)

Technical Publication

Robust Metal Additive Manufacturing Process Selection and Development for Aerospace Components

Technical Publication

Hot Isostatic Pressing for Fatigue Critical Additively Manufactured Ti-6Al-4V

Technical Publication

On the Anisotropic Impact Behavior of an Additively Manufactured AlSi10Mg Alloy in Different Heat Treatment Conditions

Technical Publication

Titanium aluminides processing by additive manufacturing – a review

Technical Publication

Influence of high initial porosity introduced by laser powder bed fusion on the fatigue strength of Inconel 718 after post-processing with hot isostatic pressing

Technical Publication

Metal Additive Manufacturing in Aerospace: A review

Technical Publication

Microstructure evolution and mechanical response-based shortening of thermal post-treatment for electron beam melting (EBM) produced Alloy 718

Technical Publication

Productivity enhancement of laser powder bed fusion using compensated shelled geometries and hot isostatic pressing, Ti-6Al-4V

技术讲座

Jim Shipley from Quintus Technologies and Magnus Bergman from VBN Componets
Tech Talks

Wear-resistant AM Components with VBN Components

Tech Talks

Advanced Ceramics Si3N4 with Sinoma

The Research Institute of Sweden - Tech Talk
Tech Talks

The Research Institute of Sweden

Ni-Base Superalloys Ruhr University of Bochum - Tech Talk
Tech Talks

Ni-Base Superalloys Ruhr University of Bochum

Application Center Västerås - Tech Talks
Tech Talks

Application Center Västerås

HIP with AM Metals Stellenbosch University / University of Texas El Paso - Tech Talk
Tech Talks

HIP with AM Metals Stellenbosch University / University of Texas El Paso

Additive Manufacturing Penn State University - Tech Talks
Tech Talks

Additive Manufacturing Penn State University

Titanium Alloys iLAS/Hamburg Technical University & Fraunhofer IAPT - Tech Talks
Tech Talks

Titanium Alloys iLAS/Hamburg Technical University & Fraunhofer IAPT

Rene 65 The Ohio State University - Tech Talks
Tech Talks

Rene 65 The Ohio State University

Addictive Manufacturing and Metallic Structures - Elementum - Tech Talks
Tech Talks

Addictive Manufacturing and Metallic Structures – Elementum

F357 University of Arizona & SLM Solutions - Tech Talks
Tech Talks

F357 University of Arizona & SLM Solutions

Transparant Ceramics Polycrystal design GMBH - Tech Talks
Tech Talks

Transparant Ceramics Polycrystal design GMBH

Application Centers – A Great Way to Provide Fantastic User Values
Tech Talks

Application Centers – A Great Way to Provide Fantastic User Values

Application Centers – An Essential Part of our Business Model
Tech Talks

Application Centers – An Essential Part of our Business Model

Jim Shipley from Quintus Technologies and Magnus Bergman from VBN Componets
Tech Talks

Wear-resistant AM Components with VBN Components

Tech Talks

Advanced Ceramics Si3N4 with Sinoma

The Research Institute of Sweden - Tech Talk
Tech Talks

The Research Institute of Sweden

Ni-Base Superalloys Ruhr University of Bochum - Tech Talk
Tech Talks

Ni-Base Superalloys Ruhr University of Bochum

Application Center Västerås - Tech Talks
Tech Talks

Application Center Västerås

HIP with AM Metals Stellenbosch University / University of Texas El Paso - Tech Talk
Tech Talks

HIP with AM Metals Stellenbosch University / University of Texas El Paso

Additive Manufacturing Penn State University - Tech Talks
Tech Talks

Additive Manufacturing Penn State University

Titanium Alloys iLAS/Hamburg Technical University & Fraunhofer IAPT - Tech Talks
Tech Talks

Titanium Alloys iLAS/Hamburg Technical University & Fraunhofer IAPT

Rene 65 The Ohio State University - Tech Talks
Tech Talks

Rene 65 The Ohio State University

Addictive Manufacturing and Metallic Structures - Elementum - Tech Talks
Tech Talks

Addictive Manufacturing and Metallic Structures – Elementum

F357 University of Arizona & SLM Solutions - Tech Talks
Tech Talks

F357 University of Arizona & SLM Solutions

Transparant Ceramics Polycrystal design GMBH - Tech Talks
Tech Talks

Transparant Ceramics Polycrystal design GMBH

Application Centers – A Great Way to Provide Fantastic User Values
Tech Talks

Application Centers – A Great Way to Provide Fantastic User Values

Application Centers – An Essential Part of our Business Model
Tech Talks

Application Centers – An Essential Part of our Business Model

批量特征是一个重要话题。我们的模拟表明,装载、卸载和致密化自动化都不会是整个过程中实施等静压面临的挑战。此外,堆叠/缠绕速度限制了致密化前的过程速度。

先期投资看起来很高,但是与电池制造行业如今在用的其他机器相比,还是相当低的。用我们建立的成本模型进行计算,等静压的每 KWh 费用较低。计算模型适合不同参数,影响较大的参数有软包尺寸和容器大小,这些可以根据客户偏好进行调整。

容量因整体式和钢丝缠绕两种容器技术而不同,采用钢丝缠绕技术的系统能够升级到 2000 L 的缸体容量。

这取决于原位(或无阳极)锂金属阳极概念的单片电池设计。Quintus 提出全部软包单片电池的致密化工艺方案。等静压机安装在堆叠和封装后的工位。

电池温等静压机连续生产时能够达到 600 MPa 的压力、150 摄氏度的温度(压力介质可以是水或油)。

我们不限方法,但是软包单片电池封装形式更合适。采用锂金属阳极或原位锂金属阳极的概念在生产测试水平上对我们很有吸引力。我们每天在我们的瑞典和美国应用中心对采用硫化物、氧化物和复合材料的固态电解质系统进行测试。

This site is registered on wpml.org as a development site. Switch to a production site key to remove this banner.