Certified Company
ISO 9001:2008
Quality Policy
Rentech Steel & Alloys stand with understanding the Customers Requirement and fulfill all needs of clients. Client satisfaction is our prime moto and we fulfill it from our process and quality, Quality Control procedures are well defined and thoroughly implemented. Rentech Steel & Alloys is built for result oriented work culture, to fulfill customer's needs in terms of Cost, Quality and time Delivery. By enhancing effectiveness of people and plant equipment safely we are aiming towards zero losses. We also believe in continual improvement for effectiveness of Quality Management System through Team Work, Training and Focus on Actions and Results.
Our Excellence
Quality is our prime concern. Rentech Known for its world class quality. We are able to maintain high quality standards through our committed personnel and sound infrastructure. We ensure that finest quality material is used for our products. For ensure the quality of each material, we are providing Materials Test Certificate along with supply as per client requirements. Our team of experts maintain a vigil on the quality of the products. Every single piece is attached with test certificates and reports. We are continually improving our quality to serve our clients better.
Quality Control
We exercise stringent quality control measures for ensuring the accurate dimensions and mechanical properties of our products. Our quality assurance system assures each product to pass through following processes and quality systems
- 1) Material Control System
- 2) Process Control System
- 3) Machining and Dimensional Control
- 4) Certification and Supplementary Test
- 5) Finishing and Marketing
Quality Assurance
The quality assurance system is guided by principles that support our unique working culture which incorporates respect, self management, open communication and creativity.
These principles are :
- 1) We strive to be the best in our industry.
- 2) We care about our customers.
- 3) We do our absolute best to honor our commitments.
- 4) We strive to always act with integrity and fairness.
Inspections
Eddy Current Testing Inspection
Eddy current testing a modern Non-destructive testing – NDT method that has become one of the prime tool for quality control of products, materials and structures at various stages of manufacturing and in-service inspections. Eddy current inspection can be used to find finest surface and subsurface flaws in any conductive material. Spectrums of quality control engineering applications are existing applying Eddy current principles. Present Eddy current NDT method has applications in Aerospace Component Inspections, Heat exchanger tube inspections and other critical engineering applications.
Eddy current testing and the principles can be used for the following engineering applications:
- Material sorting – mix up of various grade of materials either chemically different or variation in mechanical properties or metallurgically difference in structures can sorted using Eddy current testing equipment's.
- Surface and subsurface flaw detection in conducting materials. Flaws could be cracks, laminations, and other discontinuities that can be detrimental to the product performance.
- Conductivity testing for metals.
- Accurate measurement of Coating thickness with Eddy current testing. The coating can be conductive or non-conductive with few limitations on the accuracy of the measurements.
- This NDT inspection method can also be used for thickness testing and measurement of especially low thicknesses of conductive materials where there is a restriction on using Ultrasonic thickness gauging due to component configuration or the quantum of inspection. Eddy current inspections can be either contact or non-contact type tests.
- Eddy current testing is an effective means of verification of integrity of structures and estimation of corrosion damages for heat exchanger tubes. Routine in-service maintenance inspections using Eddy current techniques yield reliable data for analysis and condition monitoring of plants and structures.