To achieve leadership in the market by providing high-quality and innovative products in domestic as well as international market. Also, we focus on growth while maintaining a healthy and profitable basis for our existent products and customers.
Corporate Social Responsibility
It has always been an inherent part of our company's vision, and the basis of our core value of corporate behaviour.
The company attempts to form a positive contribution for poor communities by the support of a broad range of educational, health and socio-economic initiatives. The attempt is made to a known organization CRY which empowers more than 2500 communities across 18 Indian states to work towards communicating issues like adult unemployment, deprivation, exploitation & abuse - that constrain the children rights. Other endeavor is made in SAMARPAN organization, which is a Schoolhouse for deaf & dumb children.
Along with the aforesaid activities, the company also contributes in Blood Donation. It has a unification with Red Cross for organizing Blood Donation Camp on a regular basis.
Corporate Social Responsibility begins internally and expands externally. It shows that the responsibility begins from within the organization. Our company has engaged some underprivileged persons as our employees which also shows a corporate social responsibility.
We make important contributions for people's development and thereby meeting the Corporate Social Responsibility. Also, we aim to increase the activities not only in education and health services but also in social and economic standards of people.
- Pultruded Products
- FRP/GRP Gratings
- Light Poles & Utility Poles
- Cooling Tower Solutions
- FRP Epoxy Pultruded Profiles
- Piping System
- FRP Trefoil Clamps
- FRP Clamps
- FRP/GRP Luminaries
Aeron Composites supplies products to various market segments. The segments include:
- General Industry
- Machine Industry
- Cleaning & Maintenance
- Transportation Industry
- Telecommunication Industry
- Electrical Industry
- Paper Industry
- Energy Industry
- Building & Infrastructure Industry
- Oil and Gas Industry
- Water Distribution Industry
Providing long-lasting as well as new age GreenÂ solution to the Infrastructure Sector.
The following values are adopted in all our operations with respect to customers, personnel and environment:
- We adhere to the norms set by the society and principles of organizations in all our operations.
- We keep up with Pollution Control Norms declared by the Government bodies, and follow their principles.
- We provide products & services according to the precise requirements of customers.
- We offer innovative solutions that are beneficial for clients.
- We continuously perform on developing products & operations that enable us to offer competitive edge to the clients.
- We work with the concepts of team building, team work and leadership qualities.
- All employees are responsible for performing their job as well as achieving the objectives of team.
- Assistance to all co-workers is given for the best result and this co-operation covers all operations and business units.
Pultrusion is a constant procedure for pulling fiberglass reinforcements, such as strands and mats through a proprietary heated die and resin. The outcome is a special complex profile that can be cut to all lengths. This procedure offers consistency and speed making it the best method for production of high-volume linear fiberglass products that necessitate constant cross sections.
The Pultrusion introduces to pulling plastic raw materials with the help of a preformer. This method of production is especially suitable for profiles and tubes etc. reinforced with continuous fibres. It involves impregnated fibres pulling via preformers giving the form as at the same time the plastic is hardened with heat, or cooled until solid.
Filament winding fabrication method is used for creating composite material structures. This process involves winding filaments under variable measures of tension over a male moulder mandrel. The mandrel revolve around while a carriage changes horizontally, laying down fibres in the desirable form. Very common filaments are glass fibre and carbon, and these are coated with synthetic resin as they are wound. As the mandrel is entirely covered to the desired thickness, it is placed in an oven to set (solidify) the resin. Once the resin has recovered, the mandrel is separated, leaving the hollow ultimate product.
Quality & Environment
Our FRP/GRP products are an environmentally responsible choice. The FRP/GRP possesses low embodied energy which is defined as the total energy requisite to make a product from the stage of raw materials through delivery. FRP/GRP helps preserve the energy while reducing the operating costs, as it is an excellent insulator against cold & heat. With a long life cycle FRP/GRP is a very durable material. This cut down the costs of replacement and keeps materials out of the landfill. Our products' key ingredient is glass, which is made from sand - an abounding resource. The products are manufactured with 5% pre-consumer recycled material. GRP/FRP experiences low electrical conductivity which makes it complete for industries where electricity could cause a risk.
We work in conformity with QHSE Policy Statement, and we continually try to improve Health / Safety / Environment (HSE) by the implementation of waste minimization, potential risk assessment and optimized use of resources through the concept of three R's (i.e. Recovery, Reuse & Recycle).
FRP Waste is Recyclable
Solid waste created in the process of FRP manufacturing is a matrix of recovered fibre reinforcement material and polymer resin. Chemical composition of the polymers and FRP scrap filler / fibre content make the recycling more complex than regular thermoplastic recycling. FRP waste is reprocessed by scrap / waste grinding, and then it can be used as raw material in RTM technique / spray up to fabricate FRP products.
In spray up the recycled materials are being used in lengths of 3 to 15mm. In RTM and compression model, the longer fibres yield the best results. In most cases, it is not essential to separate fine dust from the fibres. By taking the place of fillers, the fine particles improve stiffness.
Besides utilization of FRP scrap, we advise our customers that whenever the product reaches to discharge stage, it should be handed over for the process of Re-cycling.
Research & Development
Our qualified team of engineers and researchers are constantly working hard to come up with innovative solutions by using the installed technology and tools to their foremost advantages. A new age has come out where the composites are accepted as materials of choice. Increasing use of composites is the result of the forward-looking work by our team. We constantly focus on innovation and developing new processes to keep up with the demands of modern-day life.
Engineering & Fabrication
Our in-house facilities cover processes like Fabrication, Pultrusion, Filament Winding, Assembly and Painting. Also, our competent and skilled workforce is able to bring forth global quality products to support continual production.
Our design approach- a problem solving route that exercises methods and facets. Our methodology is an inter-disciplinary act which covers market research, brainstorming, observation, ergonomics, cognition, form study to generate concepts, create solutions for clients' requirements, then validate and make prototypes. All these developed concepts are practical as well as real. Also, they meet all the global and domestic standards, which form the inputs for developing tolerances and engineering details.
The manufacturing organizations are constantly challenged to present more efficient products with decreased costs and increased life-cycle. Our team of Engineering Design Services uses CAE, CAD tools to engineer the products, develop dimensions & tolerances, simulate respectively to meet specifications, analysis, at the same time reduce development costs and time-to-market while serving clients to meet their requirements.
The life cycle of product development for various products - industrial design, engineering design, CAD modeling & detailing, simulation, analysis & prototyping, testing, tooling and manufacturing.