ŽAGAR, Boštjan ;NARDIN, Blaž ;GLOJEK, Andrej ;KRIŽAJ, Dejan . An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules. Strojniški vestnik - Journal of Mechanical Engineering, [S.l.], v. 52, n.10, p. 630-644, august 2017. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/>. Date accessed: 20 dec. 2024. doi:http://dx.doi.org/.
Žagar, B., Nardin, B., Glojek, A., & Križaj, D. (2006). An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules. Strojniški vestnik - Journal of Mechanical Engineering, 52(10), 630-644. doi:http://dx.doi.org/
@article{., author = {Boštjan Žagar and Blaž Nardin and Andrej Glojek and Dejan Križaj}, title = {An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {52}, number = {10}, year = {2006}, keywords = {injection moulding; thermal processes; injection mould cooling; thermoelectric modules; }, abstract = {One of the basic problems in the development and production process of moulds for injection moulding is the control of the temperature conditions in the mould. Nowadays, the temperature is controlled through a mould cooling system, which is composed of cooling channels, where the cooling fluid transports the needed heat to and from the mould. Such systems control the heat-exchange process throughout the entire mould, which is insufficient in many cases. For this reason it is necessary to develop a new system that will allow fast and precisely located temperature changes in defined mould locations. A precise study of the thermodynamic processes in moulds showed that heat exchange can be manipulated by thermoelectrical means. Such a system upgrades conventional cooling systems within the mould or can be a stand-alone application for the heat manipulation within it. The upgraded system comprises the temperature-detection unit, the thermo-control unit and the final controlling element (thermoelement module as a heat pump), while the stand-alone unit needs an additional heat exchanger. These units form an adaptive closed loop. In this paper we present the results of a research project that was carried out in three phases, and its results are included in the A6862006 patent. The testing stage, the prototype stage and the industrialisation phase will be presented. The main results of the project were the total and rapid online thermo-control of the mould over the cycle time and the overall influence on the quality of the plastic product, with an emphasis on deformation control. This system represents a milestone in the field of mould-temperature and product-quality control during the injection-moulding process.}, issn = {0039-2480}, pages = {630-644}, doi = {}, url = {https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/} }
Žagar, B.,Nardin, B.,Glojek, A.,Križaj, D. 2006 August 52. An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules. Strojniški vestnik - Journal of Mechanical Engineering. [Online] 52:10
%A Žagar, Boštjan %A Nardin, Blaž %A Glojek, Andrej %A Križaj, Dejan %D 2006 %T An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules %B 2006 %9 injection moulding; thermal processes; injection mould cooling; thermoelectric modules; %! An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules %K injection moulding; thermal processes; injection mould cooling; thermoelectric modules; %X One of the basic problems in the development and production process of moulds for injection moulding is the control of the temperature conditions in the mould. Nowadays, the temperature is controlled through a mould cooling system, which is composed of cooling channels, where the cooling fluid transports the needed heat to and from the mould. Such systems control the heat-exchange process throughout the entire mould, which is insufficient in many cases. For this reason it is necessary to develop a new system that will allow fast and precisely located temperature changes in defined mould locations. A precise study of the thermodynamic processes in moulds showed that heat exchange can be manipulated by thermoelectrical means. Such a system upgrades conventional cooling systems within the mould or can be a stand-alone application for the heat manipulation within it. The upgraded system comprises the temperature-detection unit, the thermo-control unit and the final controlling element (thermoelement module as a heat pump), while the stand-alone unit needs an additional heat exchanger. These units form an adaptive closed loop. In this paper we present the results of a research project that was carried out in three phases, and its results are included in the A6862006 patent. The testing stage, the prototype stage and the industrialisation phase will be presented. The main results of the project were the total and rapid online thermo-control of the mould over the cycle time and the overall influence on the quality of the plastic product, with an emphasis on deformation control. This system represents a milestone in the field of mould-temperature and product-quality control during the injection-moulding process. %U https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/ %0 Journal Article %R %& 630 %P 15 %J Strojniški vestnik - Journal of Mechanical Engineering %V 52 %N 10 %@ 0039-2480 %8 2017-08-18 %7 2017-08-18
Žagar, Boštjan, Blaž Nardin, Andrej Glojek, & Dejan Križaj. "An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules." Strojniški vestnik - Journal of Mechanical Engineering [Online], 52.10 (2006): 630-644. Web. 20 Dec. 2024
TY - JOUR AU - Žagar, Boštjan AU - Nardin, Blaž AU - Glojek, Andrej AU - Križaj, Dejan PY - 2006 TI - An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules JF - Strojniški vestnik - Journal of Mechanical Engineering DO - KW - injection moulding; thermal processes; injection mould cooling; thermoelectric modules; N2 - One of the basic problems in the development and production process of moulds for injection moulding is the control of the temperature conditions in the mould. Nowadays, the temperature is controlled through a mould cooling system, which is composed of cooling channels, where the cooling fluid transports the needed heat to and from the mould. Such systems control the heat-exchange process throughout the entire mould, which is insufficient in many cases. For this reason it is necessary to develop a new system that will allow fast and precisely located temperature changes in defined mould locations. A precise study of the thermodynamic processes in moulds showed that heat exchange can be manipulated by thermoelectrical means. Such a system upgrades conventional cooling systems within the mould or can be a stand-alone application for the heat manipulation within it. The upgraded system comprises the temperature-detection unit, the thermo-control unit and the final controlling element (thermoelement module as a heat pump), while the stand-alone unit needs an additional heat exchanger. These units form an adaptive closed loop. In this paper we present the results of a research project that was carried out in three phases, and its results are included in the A6862006 patent. The testing stage, the prototype stage and the industrialisation phase will be presented. The main results of the project were the total and rapid online thermo-control of the mould over the cycle time and the overall influence on the quality of the plastic product, with an emphasis on deformation control. This system represents a milestone in the field of mould-temperature and product-quality control during the injection-moulding process. UR - https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/
@article{{}{.}, author = {Žagar, B., Nardin, B., Glojek, A., Križaj, D.}, title = {An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules}, journal = {Strojniški vestnik - Journal of Mechanical Engineering}, volume = {52}, number = {10}, year = {2006}, doi = {}, url = {https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/} }
TY - JOUR AU - Žagar, Boštjan AU - Nardin, Blaž AU - Glojek, Andrej AU - Križaj, Dejan PY - 2017/08/18 TI - An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules JF - Strojniški vestnik - Journal of Mechanical Engineering; Vol 52, No 10 (2006): Strojniški vestnik - Journal of Mechanical Engineering DO - KW - injection moulding, thermal processes, injection mould cooling, thermoelectric modules, N2 - One of the basic problems in the development and production process of moulds for injection moulding is the control of the temperature conditions in the mould. Nowadays, the temperature is controlled through a mould cooling system, which is composed of cooling channels, where the cooling fluid transports the needed heat to and from the mould. Such systems control the heat-exchange process throughout the entire mould, which is insufficient in many cases. For this reason it is necessary to develop a new system that will allow fast and precisely located temperature changes in defined mould locations. A precise study of the thermodynamic processes in moulds showed that heat exchange can be manipulated by thermoelectrical means. Such a system upgrades conventional cooling systems within the mould or can be a stand-alone application for the heat manipulation within it. The upgraded system comprises the temperature-detection unit, the thermo-control unit and the final controlling element (thermoelement module as a heat pump), while the stand-alone unit needs an additional heat exchanger. These units form an adaptive closed loop. In this paper we present the results of a research project that was carried out in three phases, and its results are included in the A6862006 patent. The testing stage, the prototype stage and the industrialisation phase will be presented. The main results of the project were the total and rapid online thermo-control of the mould over the cycle time and the overall influence on the quality of the plastic product, with an emphasis on deformation control. This system represents a milestone in the field of mould-temperature and product-quality control during the injection-moulding process. UR - https://www.sv-jme.eu/sl/article/an-adaptive-system-for-cooling-injection-moulding-moulds-via-thermoelectric-modules/
Žagar, Boštjan, Nardin, Blaž, Glojek, Andrej, AND Križaj, Dejan. "An Adaptive System for Cooling Injection-Moulding Moulds Via Thermoelectric Modules" Strojniški vestnik - Journal of Mechanical Engineering [Online], Volume 52 Number 10 (18 August 2017)
Strojniški vestnik - Journal of Mechanical Engineering 52(2006)10, 630-644
© The Authors, CC-BY 4.0 Int. Change in copyright policy from 2022, Jan 1st.
One of the basic problems in the development and production process of moulds for injection moulding is the control of the temperature conditions in the mould. Nowadays, the temperature is controlled through a mould cooling system, which is composed of cooling channels, where the cooling fluid transports the needed heat to and from the mould. Such systems control the heat-exchange process throughout the entire mould, which is insufficient in many cases. For this reason it is necessary to develop a new system that will allow fast and precisely located temperature changes in defined mould locations. A precise study of the thermodynamic processes in moulds showed that heat exchange can be manipulated by thermoelectrical means. Such a system upgrades conventional cooling systems within the mould or can be a stand-alone application for the heat manipulation within it. The upgraded system comprises the temperature-detection unit, the thermo-control unit and the final controlling element (thermoelement module as a heat pump), while the stand-alone unit needs an additional heat exchanger. These units form an adaptive closed loop. In this paper we present the results of a research project that was carried out in three phases, and its results are included in the A6862006 patent. The testing stage, the prototype stage and the industrialisation phase will be presented. The main results of the project were the total and rapid online thermo-control of the mould over the cycle time and the overall influence on the quality of the plastic product, with an emphasis on deformation control. This system represents a milestone in the field of mould-temperature and product-quality control during the injection-moulding process.