![Temperature-dependent of specific heat for the investigated steel with... | Download Scientific Diagram Temperature-dependent of specific heat for the investigated steel with... | Download Scientific Diagram](https://www.researchgate.net/publication/299592587/figure/fig10/AS:668785103106067@1536462202617/Temperature-dependent-of-specific-heat-for-the-investigated-steel-with-individual-phases.png)
Temperature-dependent of specific heat for the investigated steel with... | Download Scientific Diagram
![LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH](https://www.linseis.com/wp-content/uploads/2020/08/App.-Nr.-02-007-005-LFA-1000-%E2%80%93-Steel-alloys-%E2%80%93-Thermal-conductivity-thermal-diffusivity-specific-heat-curve-1.png)
LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH
![4: The specific heat of steel versus the steel temperature showing the... | Download Scientific Diagram 4: The specific heat of steel versus the steel temperature showing the... | Download Scientific Diagram](https://www.researchgate.net/publication/44139189/figure/fig3/AS:648944510046209@1531731836426/The-specific-heat-of-steel-versus-the-steel-temperature-showing-the-pronounced-spike-at.png)
4: The specific heat of steel versus the steel temperature showing the... | Download Scientific Diagram
![Measurements of thermophysical properties of solid and liquid NIST SRM 316L stainless steel | SpringerLink Measurements of thermophysical properties of solid and liquid NIST SRM 316L stainless steel | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs10853-019-04261-6/MediaObjects/10853_2019_4261_Fig6_HTML.png)
Measurements of thermophysical properties of solid and liquid NIST SRM 316L stainless steel | SpringerLink
![Figure 3 | Influences of Latent Heat on Temperature Field, Weld Bead Dimensions and Melting Efficiency During Welding Simulation | SpringerLink Figure 3 | Influences of Latent Heat on Temperature Field, Weld Bead Dimensions and Melting Efficiency During Welding Simulation | SpringerLink](https://media.springernature.com/full/springer-static/image/art%3A10.1007%2Fs12540-020-00638-4/MediaObjects/12540_2020_638_Fig3_HTML.png)
Figure 3 | Influences of Latent Heat on Temperature Field, Weld Bead Dimensions and Melting Efficiency During Welding Simulation | SpringerLink
![LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH](https://www.linseis.com/wp-content/uploads/2020/08/App.-Nr.-02-007-005-LFA-1000-%E2%80%93-Steel-alloys-%E2%80%93-Thermal-conductivity-thermal-diffusivity-specific-heat-curve-2.png)
LFA 1000 – Steel alloys – Thermal conductivity / thermal diffusivity / specific heat | Linseis Messgeräte GmbH
![SOLVED: Table 4: Speclfic Heats of Metals Specific Heat Metal (le"c) 0.233 Tungsten Specific Heat (le"C) 0.134 Metal Silver Zinc 0.387 Aluminum 0.9 Stainless Steel 0.5 Lead 0.128 2. The gold-colored Metal SOLVED: Table 4: Speclfic Heats of Metals Specific Heat Metal (le"c) 0.233 Tungsten Specific Heat (le"C) 0.134 Metal Silver Zinc 0.387 Aluminum 0.9 Stainless Steel 0.5 Lead 0.128 2. The gold-colored Metal](https://cdn.numerade.com/ask_images/b259992eb3fa42279a6062ebb1412c7b.jpg)