A silver, metallic aluminium mechanical part with a smooth, curved design and a circular opening on one end. The structure features a sleek, contoured shape that tapers towards the other end. The overall appearance is polished and streamlined, ideal for Schmiedeteile automotive applications.

Double control arms

The double control amrs from Bharat Forge CDP are a prime example of state-of-the-art technology in chassis construction for passenger vehicles. They play a vital part in connecting wheels and the vehicle frame and therefore make a decisive contribution to the stability and steerability of the vehicle.

Lightweight component made from aluminium
Precision design
High-quality manufacturing
Your benefits
Technical description
Application areas

Double control arms

The double control arms from Bharat Forge CDP are designed as state-of-the-art lightweight components made from aluminium. By using aluminium as the material, our chassis components achieve an optimum balance between strength and lightweight construction. Our double control arms therefore represent a key component that does not just contribute to reducing the weight of the vehicle as a whole, but also significantly improves the performance capability of the chassis.

The advantages to you

Bharat Forge CDP uses state-of-the-art technological developments for the production of its components. Our double control arms provide the following:

1

Outstanding mechanical strength

By using drop forging procedures and targeted heat treatment processes, we ensure that our double control arms have excellent strength when subjected to stress variations.

2

Weight optimisation

We can reduce the weight of our double control arms to a minimum by using high-quality aluminium and an optimised design.

3

Cost-effective material selection

When the aluminium alloy is being selected, we ensure that our double control arms fulfil all technical requirements and ensure that manufacturing is cost-effective at the same time.

4

Optimum production process

The costs can also be reduced whilst maintaining consistently high quality thanks to our efficient production processes.

Product safety and quality assurancev

State-of-the-art testing procedures and standards are used at Bharat Forge CDP in order to guarantee maximum product quality. Our double control arms are subjected to strict controls, including magnetic particle crack testing and alternating current testing, in order to provide top-class reliability. Ultrasound testing also ensures that each material fulfils our stringent requirements.

Your questions – our answers

How does Bharat Forge CDP guarantee the quality and reliability of its double control arms?

We put a considerable amount of emphasis on thorough and strict quality checking during the manufacture of our double control arms. Each individual double control arms is subjected to numerous checks in order to ensure their reliability. Among other things, the magnetic particle crack test and the alternating current test are important constituents of these quality checks.

An important procedure in our quality control is the magnetic particle crack test, which is aimed at detecting irregularities close to the surface in the double control arms. This testing method has proven itself to be particularly useful for identifying cracks or structural weaknesses that could impair the functional capability or safety of the double control arms.

We also use alternating current tests to detect internal irregularities that can occur during the manufacturing process. These meticulous testing procedures ensure that each double control arms meets our high standards.

For which unfinished component weight can the double control arms be manufactured?

The unfinished component weight of the double wishbones we have designed is between 3 kg and 5 kg.

Are FEM calculations also carried out to verify strength?

Yes, as part of our customer-oriented services, we can carry out FEM calculations upon request in order to verify the strength of our products. These calculations allow us to analyse and verify the structural integrity and loading capacity of our components in order to fulfil the specific requirements and expectations of our customers.