N0.65, Padmavathi Nagar, 4th Main Road, Thirumullaivoyal, Chennai-600 062.
Email Us: siindservices@gmail.com Call Us: +91 96000 89080/90879 36999
WELCOME TO SIIND SERVICES
We are pleased to introduce you to SIIND NDT services. Our company ensures a high-tech, reliable and high performance testing in the field of Non Destructive Testing. We provide all types of non destructive testing. Our goal is to maximize your plant’s up time by minimizing downtime with fast, consistent and reliable inspection techniques and Proving Solution to our Clients through Creativity & Innovations in NDT Techniques.
NON DESTRUCTIVE TESTING
RADIOGRAPHY TESTING
RADIOGRAPHY TRANING
OUR CLIENTS
OUR SERVICES
Radiography is an imaging technique that uses electromagnetic radiation other than visible light, especially X-rays, to view the internal structure of a non-uniformly composed and opaque object (i.e. a non-transparent object of varying density and composition) such as the human body.
Ultrasonic testing (UT) is a family of non-destructive testing techniques based on the propagation of ultrasonic waves in the object or material tested. In most common UT applications, very short ultrasonic pulse-waves with center frequencies ranging from 0.1-15 MHz, and occasionally up to 50 MHz, are transmitted into materials to detect internal flaws .
Eddy current NDT can examine large areas very quickly, and it does not require use of coupling liquids. In addition to finding cracks, eddy current can also be used to check metal hardness and conductivity in applications where those properties are of interest, and to measure thin layers of nonconductive coatings like paint on metal parts.
Leak Testing Services, a Non-Destructive Testing (NDT) that aims detection and characterization of Leaks in a system.
Magnetic particle testing or MPT is a nondestructive testing method for locating surface and near surface discontinuities in ferromagnetic materials.
The usage of an ultrasonic thickness gauge for non-destructive testing to check material properties such as thickness measurement, is now regularly utilized in all areas of industrial measurements.
Industrial radiography is used for a variety of applications but is commonly performed using two different sources of radiation, X-Ray and Gamma ray sources. The choice of radiation sources and their strength depends on a variety of factors including size of the component and the material thickness. Within the broad group of X-Ray and Gamma ray sources are a variety of camera choices with varying radiation strengths.
OUR RECENT WORKS