Wroe et al., 2016 - Google Patents
In-situ thermal image correlation with mechanical properties of nylon-12 in SLSWroe et al., 2016
View PDF- Document ID
- 6287576952124389695
- Author
- Wroe W
- Gladstone J
- Phillips T
- Fish S
- Beaman J
- McElroy A
- Publication year
- Publication venue
- Rapid Prototyping Journal
External Links
Snippet
Purpose This paper aims to establish a method to verify in real time the quality of a part being built using Selective Laser Sintering (SLS). Design/methodology/approach A SLS build of 30 Nylon 12 tensile bars was done while using an infrared camera to record the …
- 238000011065 in-situ storage 0 title abstract description 7
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Wroe et al. | In-situ thermal image correlation with mechanical properties of nylon-12 in SLS | |
| Wegner et al. | Process monitoring in laser sintering using thermal imaging | |
| Greiner et al. | Thermographic investigation of laser-induced temperature fields in selective laser beam melting of polymers | |
| Williams et al. | In situ thermography for laser powder bed fusion: Effects of layer temperature on porosity, microstructure and mechanical properties | |
| Montazeri et al. | Sensor-based build condition monitoring in laser powder bed fusion additive manufacturing process using a spectral graph theoretic approach | |
| KR102340573B1 (en) | Systems and Methods for Measuring Radiated Thermal Energy During Additive Manufacturing Operations | |
| Grasso et al. | Process defects and in situ monitoring methods in metal powder bed fusion: a review | |
| Lough et al. | Correlation of SWIR imaging with LPBF 304L stainless steel part properties | |
| Price et al. | Experimental temperature analysis of powder-based electron beam additive manufacturing | |
| Mireles et al. | Analysis and correction of defects within parts fabricated using powder bed fusion technology | |
| Price et al. | Evaluations of temperature measurements by near-infrared thermography in powder-based electron-beam additive manufacturing | |
| EP3059076B1 (en) | Method and device for generating a three-dimensional object | |
| Zarringhalam et al. | Degree of particle melt in Nylon‐12 selective laser‐sintered parts | |
| Mazzarisi et al. | Thermal monitoring of laser metal deposition strategies using infrared thermography | |
| Shrestha et al. | Single track scanning experiment in laser powder bed fusion process | |
| Ridwan et al. | Automatic layerwise acquisition of thermal and geometric data of the electron beam melting process using infrared thermography | |
| US20230264264A1 (en) | Structural simulation of additively manufactured components | |
| Price et al. | Temperature measurements in powder-bed electron beam additive manufacturing | |
| Zhao et al. | Dual-detector electronic monitoring of electron beam selective melting | |
| Sillani et al. | In-situ monitoring of powder bed fusion of polymers using laser profilometry | |
| Özel et al. | Process monitoring of meltpool and spatter for temporal-spatial modeling of laser powder bed fusion process | |
| Heigel et al. | Measurement of thermal processing variability in powder bed fusion | |
| Hirvimäki et al. | Evaluation of different monitoring methods of laser additive manufacturing of stainless steel | |
| Nussbaum et al. | Impact of sintering time and temperature on mechanical properties in projection sintering of Polyamide-12 | |
| Golubović et al. | Investigation of thermal and dimensional behavior of 3-D printed materials using thermal imaging and 3-D scanning |