Armored vehicles are used by combatants in war zones or hostile environments to deter enemy attacks and to engage in direct attacks on enemy troops. Such vehicles are shielded with armors, as well as feature operational mobilities and tactical offensive and defensive capabilities.
Brake override system (also known as smart pedal system) is an active vehicle safety feature that works as a failsafe measure to help prevent accidents when your vehicle receives mixed signals or when an electrical malfunction causes the vehicle to continue accelerating though the drivers foot is on the brake.
Urea SCR cleans the exhaust after combustion. The urea solution is held in a separate storage tank and injected as a fine mist into the hot exhaust gases. The heat breaks the urea down into ammonia--the actual NOx-reducing agent. Through a catalytic converter, the ammonia breaks the NOx down to harmless nitrogen (N) gas and water vapor. The exhaust is no longer a pollutant; the atmosphere is about 80% nitrogen gas. The storage tank is urea tank.
Automotive Speed Reducers are devices between the transmission box and Differential, transferring the power from engine to axle.
Automotive Soft Trim Interior popularly known as “Soft Trims” belongs to automotive interiors segment being a part of the automotive ancillary's sector.
Soft trim materials present the interior module to the automotive customer. They play a key role in determining the choice of module manufacturing technology and associated costs. The range of soft trim candidates has broadened in response to new driving forces including acoustic performance, occupant protection (energy absorption), PVC substitution mandates, ELV legislation, and telematics integration.
Oil seals are used for automobile engines and geared motors, and are designed mainly to prevent oil leakage from the end of a rotating shaft, or dust intrusion from the outside air.
Oil seals serve to prevent the leakage not only of lubricants, but also water, chemicals, and gas from "gaps" in machinery. Oil seals also serve to prevent the intrusion of dust, soil and sand from the outside air.
Automotive Injector Nozzle is the introduction of fuel in an automotive engine by the means of an injector.
All diesel engines use fuel injection by design. Petrol engines can use gasoline direct injection, where the fuel is directly delivered into the combustion chamber, or indirect injection where the fuel is mixed with air before the intake stroke.
Automotive fabrics are woven, nonwoven, knitted, coated, or composite fabrics that are flexible, elastic, soft, and lightweight in design. These fabrics provide seating comfort. The global automotive fabric market is driven by technology developments in advanced fabric materials, which are known to provide superior comfort qualities vis-à-vis Composites. The global automotive fabric market is driven by the rise in consumer demand for comfort. Increase in disposable incomes allows consumers to afford high-end luxury cars. Technological advancements in automotive fabric materials allows lower range cars to be optionally fitted with quality fabrics. These factors are estimated to boost the global automotive fabric market in the next few years. Increase in manufacture of passenger cars is also augmenting the global automotive fabric market.
Automotive chassis dynamometer, sometimes called a rolling road is a device used for vehicle testing and development. It uses a roller assembly to simulate a road in a controlled environment, usually inside a building.
Automotive air quality sensors are used to keep track and monitor the quality of air inside the vehicle cabin. There has been a considerable reduction in the cabin emissions with the effective use of automotive cabin air quality sensors in the global market. Furthermore, requirement of enhanced air quality inside the vehicle has backed the growth of automotive cabin air quality sensors market. Driver and the vehicle passengers are often exposed to high level of hazardous pollutants and gases, especially in today’s urban areas and cities where the pollution level has reached to an alarming limit. Likewise, growing exhaust emissions coupled with the increasing wear particles make the passengers more vulnerable to the interior pollution. The rising interior emission of hazardous pollutants has led to significant increase in respiratory problems among the consumers. With the use of effective filtration systems combined with a cabin air quality sensor, entry or inflow of foreign particles such as pollen grains, road dust, diesel soot, etc. can be reduced inside the vehicle.
Road safety and growing pollution is one of the protuberant issues at the present time and it is estimated to be in the future as well. Digital automotive electronics such as automotive cabin air quality sensor is proficient enough to automate several driving aspects which can reduce significant cabin pollutants and improve vehicle safety. Automotive cabin air quality sensor is one of the key expansion in this area and is an advancing step for increasing the driving security and safety in the global automotive market.