The last two decades have witnessed rapid advancements in additive manufacturing technologies. Among these, 3D printing of smart materials, particularly shape memory materials (SMMs), has emerged as a promising approach for fabricating a wide range of intelligent products in the market. The flexibility...
这次分会一开始由布伦特·斯塔克(BrentStucker,路易斯维尔大学)概要介绍了添加制造工艺及其对行业实务和学术研究的影响。他通透地讲述了添加制造的基本原理、我们的功能零件生产能力的前沿技术,以及添加制造正在对设计与制造产生的影响。接下来布雷特·莱昂斯(BrettLyons,波音公司)讲述了添加制造在航天领域中的一系列应用。...
Additive Manufacturing Material Extrusion (AM-ME) is a form of rapid prototyping that offers the potential for reduction of cost and time as well as the possibility to create complex structures that are difficult or impossible to machine with common manufacturing techniques. ISO/ASTM definition: “m...
To make full use of the advantages of AM technology, a series of design for additive manufacturing (DfAM) methods have been developed. Current DfAM can be categorized into three phases: system, part and process design[4]. System design includes assembly-level design of components and ...
3D printing technology or rapid prototyping is based upon the concept of additive manufacturing; that is, building structures by depositing materials layer by layer as opposed to standard manufacturing techniques that typically rely on manipulating raw materials (molding, cutting, etc.). Consequently, ...
The printed electronics aims to make integrated electronic systems using printing technology instead of much more expensive and complex integrated circuit (IC) manufacturing technology. Printed electronics is different from the familiar silicon microelectronics with two features: one is the additive ...
3D-printing is known as an additive manufacturing process that creates three dimensional objects from a digital file. Through a layering method of cut cross-section files, the printer creates an object of diverse materials, shapes, sizes, and qualities. Inside their Waterloo University lab, the HI...
In order to introduce vanadium as a ternary alloying element during the wire arc additive manufacturing (WAAM) of titanium aluminide intermetallic alloys, alloy and elemental wire consumables (Ti6Al4V and Al wires, respectively) were used with the WAAM process. A crack-free TiAl bulk with nominal...
The areas of application range from machining wood, stone and glass and adhesive application to simple grinding applications and special machine tool technologies such as sheet metal cutting, laser and water jet cutting, as well as additive manufacturing. ...
The areas of application range from machining wood, stone and glass and adhesive application to simple grinding applications and special machine tool technologies such as sheet metal cutting, laser and water jet cutting, as well as additive manufacturing. ...