Search Results - "Cheah, C M"

Solid freeform fabrication of three-dimensional scaffolds for engineering replacement tissues and organs by Leong, K.F., Cheah, C.M., Chua, C.K.

“…Most tissue engineering (TE) strategies for creating functional replacement tissues or organs rely on the application of temporary three-dimensional scaffolds…”
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Scaffold development using selective laser sintering of polyetheretherketone–hydroxyapatite biocomposite blends by Tan, K.H, Chua, C.K, Leong, K.F, Cheah, C.M, Cheang, P, Abu Bakar, M.S, Cha, S.W

“…In tissue engineering (TE), temporary three-dimensional scaffolds are essential to guide cell proliferation and to maintain native phenotypes in regenerating…”
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Development of a Tissue Engineering Scaffold Structure Library for Rapid Prototyping. Part 1: Investigation and Classification by Cheah, C.M., Chua, C.K., Leong, K.F., Chua, S.W.

“…In tissue engineering (TE), a porous scaffold structure may be required as a template to guide the proliferation, growth and development of cells appropriately…”
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Outpatient screening with the Royal Free Hospital-Nutrition Prioritizing Tool for patients with cirrhosis at risk of malnutrition by Tan, Jin Y.T., Cheah, Chang C.M., Wang, Yu T., Chang, Pik E.J., Krishnamoorthy, Thinesh L., Tan, Hiang K., Salazar, Ennaliza

“…•Using the Royal Free Hospital-Nutrition Prioritizing Tool (RFH-NPT), one in three patients with cirrhosis was at risk of malnutrition (ARMN).•Compared with…”
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Development of tissue scaffolds using selective laser sintering of polyvinyl alcohol/hydroxyapatite biocomposite for craniofacial and joint defects by Chua, C K, Leong, K F, Tan, K H, Wiria, F E, Cheah, C M

“…The growing interest in scaffold-guided tissue engineering (TE) to guide and support cell proliferation in the repair and replacement of craniofacial and joint…”
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Rapid prototyping and tooling techniques: a review of applications for rapid investment casting by Cheah, C.M., Chua, C.K., Lee, C.W., Feng, C., Totong, K.

“…Investment casting (IC) has benefited numerous industries as an economical means for mass producing quality near net shape metal parts with high geometric…”
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Development of a Tissue Engineering Scaffold Structure Library for Rapid Prototyping. Part 2: Parametric Library and Assembly Program by Cheah, C.M., Chua, C.K., Leong, K.F., Chua, S.W.

“…Rapid prototyping (RP) techniques have been found to be advantageous for tissue engineering (TE) scaffold fabrication due to their ability to address and…”
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Selective laser sintering of biocompatible polymers for applications in tissue engineering by Tan, K H, Chua, C K, Leong, K F, Cheah, C M, Gui, W S, Tan, W S, Wiria, F E

“…The ability to use biological substitutes to repair or replace damaged tissues lead to the development of Tissue Engineering (TE), a field that is growing in…”
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Fabrication and characterization of three-dimensional poly(ether- ether- ketone)/-hydroxyapatite biocomposite scaffolds using laser sintering by Tan, K H, Chua, C K, Leong, K F, Naing, M W, Cheah, C M

“…The ability to have precise control over porosity, scaffold shape, and internal pore architecture is critical in tissue engineering. For anchorage-dependent…”
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Rapid investment casting: direct and indirect approaches via fused deposition modelling by Cheah, C. M., Tan, L. H., Feng, C., Lee, C. W., Chua, C. K.

“…Investment casting (IC) offers an economical method for mass producing complex, shaped metal parts. However, high tooling cost and lead times associated with…”
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Characterization of microfeatures in selective laser sintered drug delivery devices by Cheah, C M, Leong, K F, Chua, C K, Low, K H, Quek, H S

“…From initial applications in the fields of prosthesis, implants, surgery planning, anthropology, paleontology and forensics, the scope of rapid prototyping…”
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Rapid Moulding Using Epoxy Tooling Resin by Ong, H.S., Chua, C.K., Cheah, C.M.

“…Rapid prototyping (RP) is fast becoming a standard tool in today’s product design and manufacturing environment. Significant benefits in terms of lead time and…”
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Characterization of SLS parts for drug delivery devices by Low, K.H., Leong, K.F., Chua, C.K., Du, Z.H., Cheah, C.M.

“…There are many applications for rapid prototyping systems and application in the biomedical field is an important domain. Uses selective laser sintering (SLS)…”
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Rapid Sheet Metal Manufacturing. Part 2: Direct Rapid Tooling by Cheah, C.M., Chua, C.K., Lee, C.W., Lim, S.T., Eu, K.H., Lin, L.T.

“…The traditional methods adopted for tool design and production in the sheet metal forming industry usually carry a high cost and long lead time resulting in…”
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Origin of shrinkage, distortion and fracture of photopolymerized material by Lu, L., Fuh, J.Y.H., Nee, A.Y.C., Kang, E.T., Miyazawa, T., Cheah, C.M.

“…The influence of different laser power settings and layer pitches on the mechanical properties, microstructure and stability of parts built via ultraviolet…”
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Mechanical characteristics of fiber-filled photo-polymer used in stereolithography by Cheah, C.M., Fuh, J.Y.H., Nee, A.Y.C., Lu, L.

“…The effects of the addition of short glass fibers into an acrylic-based photo-polymer (De Solite SCR310) used in the laser solidification process have been…”
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Influence of process parameters on stereolithography part shrinkage by Wang, W.L., Cheah, C.M., Fuh, J.Y.H., Lu, L.

“…Post-curing is one of the essential steps in the stereolithography (SL) process, as it affects the final dimensional accuracy of a rapid prototype produced by…”
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Integration of laser surface digitizing with CAD/CAM techniques for developing facial prostheses. Part 1: Design and fabrication of prosthesis replicas by Cheah, Chi-Mun, Chua, Chee-Kai, Tan, Kwang-Hui, Teo, Chung-Kiat

“…This article presents a novel manufacturing approach that integrates laser surface digitizing/scanning and computer-aided design (CAD) and manufacturing (CAM)…”
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Feasibility of tissue engineering scaffold fabrication using fused deposition modelling by Too, M.H., Leong, K.F., Chua, C.K., Cheah, C.M., Ho, S.L.

“…The feasibility of fabricating three-dimensional (3-D) non-random porous scaffolds for Tissue Engineering (TE) purposes using the Fused Deposition Modelling…”
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Characteristics of photopolymeric material used in rapid prototypes Part I. Mechanical properties in the green state by Cheah, C.M., Nee, A.Y.C., Fuh, J.Y.H., Lu, L., Choo, Y.S., Miyazawa, T.

“…The curability and mechanical properties of an acrylic-based photopolymer (namely De Solite SCR-300) used in building rapid prototypes have been studied. A…”
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