- Business Fields
- Testing and fatigue strength
- Engine & Powertrain
- Acoustics laboratory
- Powertrain Test Bench
- High- and Low-Pressure Testing
- Qualification HV storage systems
- Crankshaft testing
- Dust Test
- Temperature and Climate • RTCA/DO-160, MIL-STD 810
- Thermomechanical Fatigue
- Variable superstructures
- Valve Spring Testing
- Cylinder head test bench
- Cylinder head test bench
Cylinder head test bench
Our cylinder head test benches can be used to perform time-lapse simulations
of the thermo-mechanical fatigue (TMF) cycles for cylinder heads
in the lab in order to verify the TMF strength of test items.
The test facilities employ burner units which run on a propane-oxygen mixture. Each one contains six separately adjustable burners on which cylinder heads of various dimensions can be continuously tested at a high performance level.
The test item is mounted on a dummy crankcase, which has been designed and optimised using computational fluid dynamics (CFD) to create flow conditions in the cooling channels of the cylinder head identical to those which exist in the running engine.
The test items can be quickly brought to operating temperature and be cooled using tempered glycol-water mixtures in user-defined and selectable cycles. There are two separate coolant circuits, each set to a different inlet temperature so that the cooling curves can be adapted to the required conditions. All facility components are designed for automated, continuous operation.
The open structure permits inspection during continuous tests with interruptions of just minutes. A digital camera system is also employed to detect and document fractures. The test bench can be controlled automatically via a user interface. The test chamber is connected to a control room, a separate assembly zone and a storage room.
IAGB provides these testing services, including the design and CFD-optimisation of adaptation parts for clients in the automotive, power engineering and shipbuilding industries.
The cylinder heads can be tested at very early stages of development without the need for the entire engine. Both the duration as well as the costs of the tests are significantly lower than those for tests using common engine test benches.
During the test phase, an automated digital camera system can be used to detect and document cracks and fracture development. This leads to faster and more precise test results with regard to service life and fracture development, allows for multiple tests with different parameters and provides statistical proof of test results based on a high number of test runs. This opens up new options for validation and optimisation of mathematical methods.
The test stands may be used for passenger car and commercial vehicle engines, ship engines or heavy-duty gas engines used in the power generation industry.
IAGB‘s innovative test methodology can help shorten development cycles and significantly reduce the amount of time and cost intensive engine endurance tests. Using the new quasi continuous crack inspection, simulation models can be validatet and optimised significantly. So, the quality of both simulation and test resluts can be improved significantly. This gets more and more important as as the power output per liter increases.
Wärtsilä Finland Oy, 2016
Gutor by Schneider Electric (Schweiz), 2015
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