Material jetting uses Inkjet technology to deposit materials selectively ‘drop by drop’ on to a build platform where they solidify. Once the base layer is printed the build platform is lowered and the process is repeated to form a second solid layer and so on until the build is complete. The materials used are generally thermoplastics or photopolymers that are solidified by cooling or exposure to UV radiation respectively, although other materials that are of low enough viscosity to be printed and can be triggered to undergo a liquid-solid transition following deposition can be used. Another related method is binder jetting, which is a powder bed technique like powder bed fusion but instead of using a laser or electron beam the particles are fused together using a binding agent which is deposited from a print head.

As with 2D inkjet technology a fundamental requirement is that the material is jet-able and should form discreet drops prior to hitting the substrate. These requirements depend on material viscosity and in the case of drop formation, surface tension also. For more complex materials which contain high molecular weight polymers or dispersed components the materials may become non-Newtonian which may affect printing performance.

Gel Permeation Chromatography (GPC) is another important technique that can be used to determine the molecular weight and molecular structure of oligomers or polymers present in the formulation and can aid the development of new photopolymer resins. GPC can also be used to monitor polymer degradation or scission resulting from mechanical stresses in the print head or the circulatory system (pump), which may affect jetting behavior and the structural integrity of the final material.



세계에서 가장 최고의 성능을 가진 다중 검출기 GPC/SEC 시스템

자세한 내용은
측정 유형
분자 구조
분자 크기
최소 샘플 질량(BSA) 100ng
최소 샘플 질량(폴리스티렌) 100ng
분자량 범위 200Da - 10MDa