YI, Peng ;XU, Pengyun ;FAN, Changfeng ;LI, Chengkai ;SHI, Yongjun . The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 61, n.1, p. 43-52, june 2018. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/>. Date accessed: 19 nov. 2024. doi:http://dx.doi.org/10.5545/sv-jme.2014.1807.
Yi, P., Xu, P., Fan, C., Li, C., & Shi, Y. (2015). The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron. Strojniški vestnik - Journal of Mechanical Engineering, 61(1), 43-52. doi:http://dx.doi.org/10.5545/sv-jme.2014.1807
@article{sv-jmesv-jme.2014.1807,
author = {Peng Yi and Pengyun Xu and Changfeng Fan and Chengkai Li and Yongjun Shi},
title = {The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {61},
number = {1},
year = {2015},
keywords = {Laser cladding; gray cast iron; local self-preheating; numerical models; microstructure},
abstract = {In laser cladding, high cooling rates outcomes with superior mechanical and metallurgical properties. However, this characteristic along with the additive nature of the process significantly contributes to the formation of the thermal stresses, which are the main cause of any potential delamination and crack formation across the remolten area. To reduce thermal stress caused and better manage the microstructure, a strategy of dynamic local self-preheating is designed. Laser cladding experiments of no preheating, static global preheating, and dynamic local preheating with gray cast iron are conducted. Parallel to experimental investigations, numerical models are established to study the temperature distributions and thermal stresses in different processes. The results indicate that dynamic local self-preheating contributes reducing the transient thermal stress and residual stress compared with others. By self-preheating the substrate, microstructures of the coarse grained region are well-developed. The self-preheated sample reveals more compact structure in fusion area and can derive less cracking prone during the cladding process.},
issn = {0039-2480}, pages = {43-52}, doi = {10.5545/sv-jme.2014.1807},
url = {https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/}
}
Yi, P.,Xu, P.,Fan, C.,Li, C.,Shi, Y. 2015 June 61. The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 61:1
%A Yi, Peng %A Xu, Pengyun %A Fan, Changfeng %A Li, Chengkai %A Shi, Yongjun %D 2015 %T The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron %B 2015 %9 Laser cladding; gray cast iron; local self-preheating; numerical models; microstructure %! The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron %K Laser cladding; gray cast iron; local self-preheating; numerical models; microstructure %X In laser cladding, high cooling rates outcomes with superior mechanical and metallurgical properties. However, this characteristic along with the additive nature of the process significantly contributes to the formation of the thermal stresses, which are the main cause of any potential delamination and crack formation across the remolten area. To reduce thermal stress caused and better manage the microstructure, a strategy of dynamic local self-preheating is designed. Laser cladding experiments of no preheating, static global preheating, and dynamic local preheating with gray cast iron are conducted. Parallel to experimental investigations, numerical models are established to study the temperature distributions and thermal stresses in different processes. The results indicate that dynamic local self-preheating contributes reducing the transient thermal stress and residual stress compared with others. By self-preheating the substrate, microstructures of the coarse grained region are well-developed. The self-preheated sample reveals more compact structure in fusion area and can derive less cracking prone during the cladding process. %U https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/ %0 Journal Article %R 10.5545/sv-jme.2014.1807 %& 43 %P 10 %J Strojniški vestnik - Journal of Mechanical Engineering %V 61 %N 1 %@ 0039-2480 %8 2018-06-27 %7 2018-06-27
Yi, Peng, Pengyun Xu, Changfeng Fan, Chengkai Li, & Yongjun Shi. "The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron." Strojniški vestnik - Journal of Mechanical Engineering [Online], 61.1 (2015): 43-52. Web. 19 Nov. 2024
TY - JOUR AU - Yi, Peng AU - Xu, Pengyun AU - Fan, Changfeng AU - Li, Chengkai AU - Shi, Yongjun PY - 2015 TI - The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron JF - Strojniški vestnik - Journal of Mechanical Engineering DO - 10.5545/sv-jme.2014.1807 KW - Laser cladding; gray cast iron; local self-preheating; numerical models; microstructure N2 - In laser cladding, high cooling rates outcomes with superior mechanical and metallurgical properties. However, this characteristic along with the additive nature of the process significantly contributes to the formation of the thermal stresses, which are the main cause of any potential delamination and crack formation across the remolten area. To reduce thermal stress caused and better manage the microstructure, a strategy of dynamic local self-preheating is designed. Laser cladding experiments of no preheating, static global preheating, and dynamic local preheating with gray cast iron are conducted. Parallel to experimental investigations, numerical models are established to study the temperature distributions and thermal stresses in different processes. The results indicate that dynamic local self-preheating contributes reducing the transient thermal stress and residual stress compared with others. By self-preheating the substrate, microstructures of the coarse grained region are well-developed. The self-preheated sample reveals more compact structure in fusion area and can derive less cracking prone during the cladding process. UR - https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/
@article{{sv-jme}{sv-jme.2014.1807},
author = {Yi, P., Xu, P., Fan, C., Li, C., Shi, Y.},
title = {The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron},
journal = {Strojniški vestnik - Journal of Mechanical Engineering},
volume = {61},
number = {1},
year = {2015},
doi = {10.5545/sv-jme.2014.1807},
url = {https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/}
}
TY - JOUR AU - Yi, Peng AU - Xu, Pengyun AU - Fan, Changfeng AU - Li, Chengkai AU - Shi, Yongjun PY - 2018/06/27 TI - The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 61, No 1 (2015): Strojniški vestnik - Journal of Mechanical Engineering DO - 10.5545/sv-jme.2014.1807 KW - Laser cladding, gray cast iron, local self-preheating, numerical models, microstructure N2 - In laser cladding, high cooling rates outcomes with superior mechanical and metallurgical properties. However, this characteristic along with the additive nature of the process significantly contributes to the formation of the thermal stresses, which are the main cause of any potential delamination and crack formation across the remolten area. To reduce thermal stress caused and better manage the microstructure, a strategy of dynamic local self-preheating is designed. Laser cladding experiments of no preheating, static global preheating, and dynamic local preheating with gray cast iron are conducted. Parallel to experimental investigations, numerical models are established to study the temperature distributions and thermal stresses in different processes. The results indicate that dynamic local self-preheating contributes reducing the transient thermal stress and residual stress compared with others. By self-preheating the substrate, microstructures of the coarse grained region are well-developed. The self-preheated sample reveals more compact structure in fusion area and can derive less cracking prone during the cladding process. UR - https://www.sv-jme.eu/sl/article/the-effect-of-dynamic-local-self-preheating-in-laser-cladding-on-gray-cast-iron/
Yi, Peng, Xu, Pengyun, Fan, Changfeng, Li, Chengkai, AND Shi, Yongjun. "The Effect of Dynamic Local Self-preheating in Laser Cladding on Gray Cast Iron" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 61 Number 1 (27 June 2018)
Strojniški vestnik - Journal of Mechanical Engineering 61(2015)1, 43-52
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
In laser cladding, high cooling rates outcomes with superior mechanical and metallurgical properties. However, this characteristic along with the additive nature of the process significantly contributes to the formation of the thermal stresses, which are the main cause of any potential delamination and crack formation across the remolten area. To reduce thermal stress caused and better manage the microstructure, a strategy of dynamic local self-preheating is designed. Laser cladding experiments of no preheating, static global preheating, and dynamic local preheating with gray cast iron are conducted. Parallel to experimental investigations, numerical models are established to study the temperature distributions and thermal stresses in different processes. The results indicate that dynamic local self-preheating contributes reducing the transient thermal stress and residual stress compared with others. By self-preheating the substrate, microstructures of the coarse grained region are well-developed. The self-preheated sample reveals more compact structure in fusion area and can derive less cracking prone during the cladding process.