Automobile Forged Component Manufacturers in India

Excel Forging is a leading automotive/automobile forging parts manufacturer with 25 years of experience in providing precision auto forging components. Our products are of the highest quality and are designed to meet the most stringent industry standards. We take pride in providing our customers with the most reliable and efficient automotive forging parts available in the market.

Connecting Rods

Connecting rods are engine components used to transfer power from engine piston to the crankshaft. It is forged, machined and finally grind. Connecting rod is connected to the crankshaft through a bearing and to the piston through a piston pin. Connecting rods are an important and critical part of an engine, as they are responsible for converting the rotational motion of the crankshaft into linear motion of the pistons.

Crank Shaft

Crankshafts are components in an automobile or any combustion engine that convert the linear motion of the pistons into rotary motion. They are made of special steel and are connected to the flywheel. Crankshafts are ensure that the pistons move in a smooth, uniform manner when the engine is running. Crankshafts also provide stability and structural rigidity to the engine. The crankshaft is an important part of the engine and is essential for the smooth performance of the engine used for car and heavy vehicle.

Camshaft

Camshafts are forged components found cars, heavy vehicle with internal combustion engines that are used to operate the engine valves. They are located in the cylinder head and consist of a cylindrical rod with a series of lobes or cams that open and close the valves in a specific sequence. The camshaft is driven by the crankshaft with the help of timing belt or chain, and its timing is crucial in order to ensure smooth and efficient engine operation. The camshaft is also responsible for controlling the engine’s exhaust and air intake cycle.

Steering Links

Steering links are the forged components of a any vehicle’s steering system which connect the steering to the steering knuckle. They are used for transferring the rotational force from the driving steering wheel to the vehicle’s front wheels. They are forged from special graded steel and it is found in both manual and power steering systems operated vehicle. Steering links are important for providing precise and responsive steering control.

Brake Calipers

Brake calipers are the most critical parts of a car or heavy vehicle braking system that clamp down on the brake pads when the brakes force are applied by the driver. They are mounted over the brake rotor and which contain hydraulic pistons which press the pads against the rotor to generate friction, which helps in slowing down the vehicle.

Transmission Shafts

Transmission shafts are forged and fully machined components of a drivetrain system that transfer power from the engine to the wheels. They consist of a series of various size and shape of shafts that rotate in conjunction with each other. They are durable and reliable to for smooth operation and performance of the vehicle.

Differential Housings

Differential housings are essential components of a vehicle’s drivetrain, designed to hold and protect the differential gears and axles. Forging is a popular method used to manufacture differential housings due to its ability to create strong and durable parts. Forging method results in differential housings with superior strength, durability, and resistance to wear and tear. Additionally, forging allows for greater design flexibility, enabling manufacturers to create differential housings with intricate shapes and features.

Axle Shafts

Axle shafts are components of a vehicle drivetrain system. They are used to transmit rotational power from the transmission to the automobile or machine wheels. Axle shafts are typically made of high strength steel and are designed to handle high torque loads with providing a long durable life. It come in a variety of shapes and sizes and are an important component of any automobile vehicle’s drivetrain.

Gear Shifter

Gear shifter is a part of gear box used in automotive industries and forging is the process by which a gear shifter lever is manufactured. The forging process involves heating the metal to a specific temperature, then using a hammer or press to shape it into the desired form. Gear shifter forging process is durable and strong gear shifter can be manufactured that can withstand the wear and tear of daily use. With the proper forging process and using high-quality materials, gear shifter forging can produce reliable and long-lasting components for automotive and other machinery applications.

Connecting Link Rod

Connecting link rod forging is a best process in manufacturing connecting link rod. This process involves heating metal rods to a desired temperature and then hammering them into shape using a hammer forging press. Forged connecting rods are stronger and more durable. Connecting link rod forging requires skilled craftsmen and latest equipment to ensure the quality of the final forging product. By using forging process, engine manufacturers can produce reliable and high-performance engines that meet the demands of modern consumers.

Steering U Joint

Steering U joint forging is a crucial process in the manufacturing of automobile steering systems. It involves the shaping of metal components through the application of hot forging. This process enhances the structural integrity and durability of the U joint, ensuring it can withstand the constant stress of steering movement. Forging also helps to eliminate defects and inconsistencies that may arise in the casting process, resulting in a high-quality, reliable steering U joint.

Steering Idler Arm

Steering idler arm forging is a process used to manufacture durable and reliable idler arms for vehicles. During forging, a heated metal blank is shaped by compressive forces into the desired shape of the idler arm. This process produces a component that is able to withstand high levels of stress and wear, ensuring a smooth and stable steering system. Proper forging techniques are essential for creating high-quality steering idler arms that provide reliable performance and longevity.

Steering Yoke

Steering yoke forging is a process that involves shaping a solid piece of metal into a steering yoke, which is used in steering systems of all vehicles. The forging process involves heating the special steel metal up to 1150 degree centegrate temperature and then applying pressure to shape it into the desired form by hammer forging. The resulting steering yoke is strong, durable, and resistant to wear and tear. This process is widely used in the automotive industry and is essential for ensuring safe and efficient steering in vehicles.

Rocker Arm

Rocker arm forging is a process of creating strong and durable rocker arms for engines. Rocker arm forging process involves heating a metal bar and shaping it into the desired form using a die and forging press. Which result is a high-quality rocker arm that can withstand the stresses of engine operation. Rocker arm forging is widely used in the automotive industry and is known for its reliability and cost-effectiveness. Rocker arm forging process is essential for ensuring the proper functioning of internal combustion engines and is an important aspect of modern engine design.

Truck S-Cam
S-Cam forging is a hot forging manufacturing process used to create high quality and durable S-cam which is the most common type of brake used in commercial vehicles with air brake systems. Forging S-cam process involves heating metal one end and then shaping it in S-shape using a die to form the desired S-cam shape. The result is a strong, precise, and reliable component that can withstand the rigors of braking system. This method of forging is used in the automotive industry, and its benefits include enhanced performance, longevity, and cost-effectiveness.

Axle Yoke
Excel Forging is a leading manufacturer and exporter of Axle Yoke Forging and ready to assemble from India. Axle yoke forging is a used to create a sturdy and durable component for various types of machinery and vehicles. Forging process involves heating a metal billet and shaping it into an axle yoke using mechanical forging press. Forged axle yoke is strong, reliable component that for heavy loads with all conditions. Axle yoke forging is essential for industries such as transportation, construction, and agriculture, where dependable equipment is crucial for success.

Flange Yoke
Excel Forging is a leading manufacturer and exporter of Flange Yoke Forging and machined ready to assemble from India to countries including the USA, Germany, UAE, Italy, Russia, and many others. With more than 25 years of experience in the forging industry, Excel Forging has developed a reputation for delivering high-quality products that meet the unique needs of our reputed clients.

Shaft Yoke
Excel Forging is a manufacturer and exporter of Shaft Yoke Forging. The process used to create strong and durable shaft yokes for various industrial applications. Flange Yoke Forging process involves heating of a metal billet up to a 1150 degree centigrade temperature and then shaping it using a hammer or press to create the flange Yoke shape. Forging process is the most accepted process that allows for the creation of yokes with a precision and strength, making them ideal for use in heavy duty machinery. Forging allows for customization of the yoke to meet specific requirements, such as weight, strength, and durability. Its precision, strength, and durability make it a valuable tool in the manufacturing industry.