- KNS Otomotiv, It has been awarded the "Design Center Certificate" by the T.R. Ministry of Industry and Technology.
- KNS Otomotiv, continues to increase its sustainable and distinctive competitive power in all sectors in which it operates in the global market by creating value. It carries out innovative ideas, educational activities, strategic project processes, and works under the supervision of intellectual and industrial property rights by revealing its advanced technologies and innovations in the Design center with collective intelligence and vision.
- With a team of 20 people, including 15 young, dynamic and innovative research engineers, 3 technicians and 2 support staff, at the Design Center located in our factory in Sakarya Hanlı 1.OIZ, KNS Otomotiv carries out solution-oriented studies with its expert engineering team in conceptual design studies, 3D design studies, air channel designs, LED lighting designs, welded and bent part designs, plastic injection molds, metal cutting and drilling molds, aluminum extrusion molds, plastic extrusion molds, and electronic PCB board designs for its customers.
The analysis and program capabilities used in the design and development processes at the KNS Otomotiv Design center are as follows:
Program Capabilities:
Analysis Capabilities: | |
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Static Structural (Static Analysis) | It is a type of analysis used to determine displacements, stresses, etc. under generally linear and nonlinear static loading conditions. |
CFD (Flow Analysis) | It is a branch of fluid mechanics in which problems where fluid behavior is effective are analyzed numerically using computer methods and algorithms. (Air Flow Analysis, etc.) |
Explicit Dynamics | It is generally used to predict possible damages arising from dynamic events. (Crash Analysis, etc.) |
Autodyn | It is used to simulate the behavior of materials under extreme loading conditions that occur in short periods of time due to high pressure, explosives, and impacts. |
Topology Dynamics | It is a design optimization that creates the best possible shape based on the information you determine, such as loads, constraints, boundary conditions, and production controls. |
Harmonic Response | It is an analysis performed to determine the response of a structure to time-varying loads, typically seen in rotating machines. |
Modal Analysis | It is used to understand the structural dynamics of objects, how structures and objects vibrate, and how resistant they are to applied forces. (Natural Frequency) |
Rigid Dynamics | It enables analysis of speed, position, and acceleration in mechanisms. |
Steady-State Thermal | It is the module where thermal changes caused by transport, radiation, and conduction in materials that are not time-dependent are analyzed. |