The project aims to optimize the production technology of high-strength austenitic steel wire. Customer requirements for the wires are defined, primarily focusing on achieving the highest possible strength limits while maintaining good ductility for various final wire diameters, which serve as a semi-finished product for spring manufacturing.
The project aims to develop and verify refining processes for producing high-purity non-ferrous metals and its alloys and manufacturing advanced titanium-based non-ferrous alloys in powder form for additive manufacturing using binder jet technology.
PO-3 "Efficient energy management, development of energy infrastructure and renewable energy sources, support for the introduction of new technologies in the field of energy management and secondary raw materials"
Start and end of project 3.2.2020 - 30.10.2020
The project Optimization of forging and drawing of mesh technology focuses on the optimization of the process of forging and drawing of meshes from 42CrMo4 material with emphasis on streamlining the process in the applicant's operation while ensuring constant required material properties of the final product
Innovative voucher is focused on testing and simulation of material model of titanium sheet.
Project start date 12/2019
Our company has gained a project, which is co-funded by the European Union under the name of OPTIMIZATION of forming processes NI and CU alloy for electrical industry. The aim of the project is to capture all the effects of the forming process at the final electrical and mechanical features and to optimize the process of manufacturing spraying targets.
Start and end of project 7/2017 - 11/2017
Another successful project, which was supported and annouced by the Czech Republic’s Technology Agency within the EPSILON program is the Research and developmentof the technology for wires production from low allegation of CU alloys based on Cu-Cr-Nb for refractory conductors for nuclear power engineering. The aim of the project is to develop the technology of wires production from low allegation copper alloys.
Start and end of project 01/2018 - 12/2020
The project is focused on the development of technology of CuSn alloy wire processing for the purpose of repair welding of deep drawn vessels. CuSn alloy is a new type of alloy with high corrosion resistance in seawater and other aggressive media (eg acids). The aim of the project is to design and optimize the technological process of production. The output of the project will be a technological process of processing.
Start and end of project 02/2018 - 05/2018
