Absorptance of powder materials suitable for laser sintering. For metals and carbides, the absorptance decreases with increasing wavelength; whereas for oxides and polymers, the opposite behaviour is obtained, that is the
Lasers and materials in selective laser sintering
Selective Laser Sintering of Porous Silica Enabled by Carbon Additive
Lasers and materials in selective laser sintering. (2000),“Absorptance of powder materials suitable for laser sintering”, Rapid Prototyping Journal, Vol. 6 Iss 3 pp. 155-161 http://dx.doi.org/10.1108 , Selective Laser Sintering of Porous Silica Enabled by Carbon Additive, Selective Laser Sintering of Porous Silica Enabled by Carbon Additive
Process Phenomena and Material Properties in Selective Laser
*Opportunities and Challenges of Selective Laser Sintering 3D *
Process Phenomena and Material Properties in Selective Laser. Absorptance of powder materials suitable for laser sintering. Rapid Prototyp. J. 2000, 6, 155–160. [Google Scholar] [CrossRef]; Laumer, T.; Stichel, T , Opportunities and Challenges of Selective Laser Sintering 3D , Opportunities and Challenges of Selective Laser Sintering 3D
Laser sintering of polyether sulfone/carbon black composite
*Absorbance study of powder conditions for laser additive *
Laser sintering of polyether sulfone/carbon black composite. Related to Herein, a laser-sintered material was fabricated by sintering Absorptance of powder materials suitable for laser sintering. Rapid , Absorbance study of powder conditions for laser additive , Absorbance study of powder conditions for laser additive
Absorptance of powder materials suitable for laser sintering
*Absorptivity of metallic powders to CO 2 and Nd:YAG laser *
Absorptance of powder materials suitable for laser sintering. The absorptance (A) of a material is defined as the ratio of the absorbed radiation to the incident radiation. Usually in the experiments, the reflectance (R) , Absorptivity of metallic powders to CO 2 and Nd:YAG laser , Absorptivity of metallic powders to CO 2 and Nd:YAG laser
Employment of an Extended Double-Integrating-Sphere System to
Selective Laser Sintering of Porous Silica Enabled by Carbon Additive
Employment of an Extended Double-Integrating-Sphere System to. Limiting Laoui and V.I. Titov, Absorptance of powder materials suitable for laser sintering, IEEE Rapid Prototyp. J., 2000, 6(3), p 155–161. https , Selective Laser Sintering of Porous Silica Enabled by Carbon Additive, Selective Laser Sintering of Porous Silica Enabled by Carbon Additive
Absorbance study of powder conditions for laser additive
Selective Laser Sintering of Porous Silica Enabled by Carbon Additive
Absorbance study of powder conditions for laser additive. The absorption fraction depends on the energetic structure of the material and thus also on the wavelength of the light. With respect to metals, this leads to , Selective Laser Sintering of Porous Silica Enabled by Carbon Additive, Selective Laser Sintering of Porous Silica Enabled by Carbon Additive. Top Choices for Clients absorptance of powder materials suitable for laser sintering and related matters.
Absorptance of powder materials suitable for laser sintering: Ingenta
*Absorbance study of powder conditions for laser additive *
Absorptance of powder materials suitable for laser sintering: Ingenta. Backed by Buy Article: 442 total citations on Dimensions. The normal spectral absorptance of a number of metal, ceramic and polymer powders , Absorbance study of powder conditions for laser additive , Absorbance study of powder conditions for laser additive
Absorptance of powder materials suitable for laser sintering
*Absorbance study of powder conditions for laser additive *
Absorptance of powder materials suitable for laser sintering. For metals and carbides, the absorptance decreases with increasing wavelength; whereas for oxides and polymers, the opposite behaviour is obtained, that is the , Absorbance study of powder conditions for laser additive , Absorbance study of powder conditions for laser additive , A review of additive manufacturing of ceramics by powder bed , A review of additive manufacturing of ceramics by powder bed , This study on powder absorptivity to laser aims to improve the process of selective laser Absorptance of powder materials suitable for laser sintering. Rapid
