Certificate No.T-2387 - An ISO/IEC 17025:2005 Standard - NABL Accreditation Certified Laboratory.

 

NDT TRAINING INSTITUTE IN CHENNAI |PCN NDT TRAINING IN INDIA|CSWIP TRAINING IN INDIA |CSWIP WELDING COURSE 3.0,3.1,3.2 IN INDIA |NDT TRAINING IN CHENNAI | CSWIP TRAINING IN TRICHY |PCN NDT INSTITUTE IN CHENNAL |AWS WELDING INSTITUTE |QAQC CERTIFICATION|NDT IN INDIA |PCN COURSE IN CHENNAI |NDT TRAINING IN COIMBATORE | CSWIP WELDING COURSE| PCN NDT IN TAMIL NADU| PCN NDT COURSE| PCN NDT TRAINING INSTITUTE IN CHENNAI| PCN TRAINING AND CERTIFICATION IN INDIA | CSWIP WELDING TRAINING AND CERTIFICATION IN INDIA| NDT COCHIN | NDT IN VIZAG| NDT KERALA | NDT COCHIN | NDT INSTITUTE IN COCHIN| NDT TRAINING IN COCHIN| QA/QC INSPECTOR TRAINING IN KERALA| NDT TRAINING IN BANGALORE| AWS-CWI IN KERALA| NDT TRAINING IN COIMBATORE| NDT TRAINING IN TRICHY| NDT TRAINING IN CHENNAI| API TRAINING IN CHENNAI| AWS-CWI TRAINING COIMBATORE| API INSPECTOR TRAINING IN INDIA| AWS|AWS INDIA| AWS – CWIIN INDIA| NDT TRAINING IN CHENNAI INDIA| CSWIP CERTIFICATION| NDT CERTIFICATION| NDT LEVEL 2| ASNT LEVEL II| NDT TRAINING| CHENNAI, TRICHY, COIMBATORE, COCHIN, INDIA,TWGGROUP IN CHENNAI, CSWIP TRICHY, NDTTRICHY, AEROSPACE TRAINING IN CHENNAI, NDT COCHIN, CSWIP COIMBATORE,CIVIL NDT TRAINING IN CHENNAI | NDT TRAINING IN COCHIN| QA/QC INSPECTOR TRAINING IN KERALA| NDT TRAINING IN BANGALORE| AWS-CWI IN KERALA| NDT TRAINING IN COIMBATORE| NDT TRAINING IN TRICHY| NDT TRAINING IN CHENNAI| API TRAINING IN CHENNAI| AWS-CWI TRAINING COIMBATORE| API INSPECTOR TRAINING IN INDIA| AWS|AWS INDIA| AWS – CWIIN INDIA| NDT TRAINING IN CHENNAI INDIA| CSWIP CERTIFICATION| NDT CERTIFICATION| NDT LEVEL 2| ASNT LEVEL II| NDT TRAINING| CHENNAI, TRICHY, COIMBATORE, COCHIN, INDIA,TWGGROUP IN CHENNAI, CSWIP TRICHY, NDTTRICHY, AEROSPACE TRAINING IN CHENNAI, NDT COCHIN, CSWIP COIMBATORE,CIVIL NDT TRAINING IN CHENNAI | CSWIP TRAINING IN TRICHY |PCN NDT INSTITUTE IN CHENNAL |AWS WELDING INSTITUTE |QAQC CERTIFICATION|NDT IN INDIA |PCN COURSE IN CHENNAI |NDT TRAINING IN COIMBATORE | CSWIP WELDING COURSE| PCN NDT IN TAMIL NADU| PCN NDT COURSE| PCN NDT TRAINING INSTITUTE IN CHENNAI| PCN TRAINING AND CERTIFICATION IN INDIA |PCN NDT INSTITUTE IN CHENNAL

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ASNT NDT - TRAINING AND CERTIFICATION

 

  • Ultrasonic Testing
  • Radiographic Testing
  • Magnetic Particle
  • Penetrant Testing
  • Visual Testing
  • Radiographic Film Interpretation
  • Ultrasonic Thickness Measurement
  • Time of Flight Diffraction (TOFD)
  • Phased Array Ultrasonic Testing (PAUT)

 

PCN NDT - TRAINING AND CERTIFICATION

 

  • Ultrasonic Testing
  • Radiographic Testing
  • Magnetic Particle
  • Penetrant Testing
  • Visual Testing
  • Radiographic Film Interpretation
  • Ultrasonic Thickness Measurement
  • Time of Flight Diffraction (TOFD)
  • Phased Array Ultrasonic Testing (PAUT)

 

Welding Inspection Course

 

  • AWS CWI to CSWIP Welding Inspector - Level 2
  • AWS CWI to CSWIP Welding Inspector - Level 2 (Mandarin)
  • CSWIP 3.0 Visual Welding Inspector - Level 1
  • CSWIP 3.0 Visual Welding Inspector - Level 1 (Mandarin)
  • CSWIP 3.0 Plus - Visual Welding Inspector with Practical Module - Level 1
  • CSWIP 3.1 Welding Inspector - Level 2
  • CSWIP 3.1 Welding Inspector - Level 2 (Mandarin)
  • CSWIP 3.2 Senior Welding Inspector - Level 3
  • SAIW Level 1 to CSWIP Welding Inspector Level 2
  • SAIW Level 2 to CSWIP Senior Welding Inspector Level 3
  • Welding Inspection Refresher - Practical and Theory

 

API COURSES

 

  • API Examination Preparation Courses
  • API 510 Pressure Vessel Inspector Examination Preparation Course
  • API 653 Aboveground Storage Tank Inspector Examination Preparation Course
  • API 570 Piping Inspector Examination Preparation Course

 

BGAS-CSWIP

 

  • BGAS-CSWIP Agricultural & Environmental Inspector
  • BGAS-CSWIP Blast Cleaning/Preparation Operative Level 5A
  • BGAS-CSWIP Painting Inspector Grade 2
  • BGAS-CSWIP Painting Inspector Grade 1
  • BGAS-CSWIP Painting Supervisor Level 4
  • BGAS-CSWIP Pipeline Welding Inspector
  • BGAS-CSWIP Protective Painter/Sprayer Operative Level 5B
  • BGAS-CSWIP Site Coatings Inspector

 

QA/QC Course Details

 

  • Introduction to Certified Quality Controller
  • Welding Engineering
  • Material Engineering
  • Destructive & Non Destructive Engineering
  • Blasting & Coating Engineering
  • Quality Management Engineering
  • Damage Mechanism
  • Industrial Engineering Drawings

 

T-K-Y JOINTS COURSE

 

This specialized course is presented in a manner that promotes understanding and the ability to conduct T-K-Y Joints Ultrasonic inspection. This is an excellent course for practicing engineers to learn in depth concepts of critical weld examinations. This course covers underlying concepts of TKY weld examination of offshore structural fabrication as per API RP 2X and AWS D1.1

 

API-RP 2X (Tubular Connections)

 

  • Selection of probes.
  • Construction of DAC.
  • Evaluation of defects..
  • Acceptance criteria

 

AWS D 1.1 (Non tubular connection Steel Structures)

 

  • Statically loaded.
  • Cyclically loaded Structures.
  • Construction of weld cross section involving curvature using profile-gauge and other methods
  • Estimating change of angle, beam-path, surface distance for curved surfaces
  • Construction of a flaw locating rule for T K Y Weld Inspections
  • Applying acceptance criteria
  • Ultrasonic inspection report preparation

 

ASNT/ACCP Level III

 

  • Basic
  • Magnetic Particle
  • Penetrant Testing
  • Radiographic Testing
  • Ultrasonic Testing

 

NAVAL - ARCHITECTURE

 

  • Liquid Penetrant Testing
  • Magnetic Particle Testing
  • Ultrasonic Testing
  • Radiographic Testing
  • Radiographic Film Interpretation
  • Visual Testing
  • Ultrasonic Thickness Gauging
  • UT of TKY Joints

 

Eddy Current Testing Courses (ET)

 

Level I

 

  • Brief History of Testing 
  • Basic Principles of Testing 
  • Generation of Eddy Currents by means of an AC field 
  • Effect of fields created by Eddy Currents 
  • Effect of change of impedance on instrumentation 
  • Terminology and units 
  • Principles of magnetisation. 
  • Magnetisation 
  • electromagnetism theory 
  • Flux leakage theory and principle 
  • Readout Mechanism 
  • Types of Eddy Current Sensing Elements 
  • Types of Flux Leakage Sensing Elements 
  • Safety as applicable to Eddy Current Testing and Electrical Safety
  •  

    Level II

     

  • Review of Electromagnetic Theory 
  • Factors that affect Coil Impedance 
  • Factors that affect Flux Leakage Fields 
  • Signal-to-Noise Ratio 
  • Selection of Test Frequency 
  • Selection of Method of Magnetisation for Flux 
  • Leakage Testing 
  • Coupling 
  • Field Strength and Its Selection 
  • Field Orientation for Flux Leakage Testing 
  • Instrument Design Consideration 
  • Safety as applicable to Eddy Current Testing and Electrical Safety

 

Tube Testing Specific

 

  • ETTT40 - 5 Days Course for ET Tube Testing suitable for SNT/PCN (40 Hours)
  • ETTT80 - 10 Days Course for ET Tube Testing suitable for SNT/PCN Level 2 Direct (80 Hours)

 

Please note, there is a further charge if you require examination at the end of your training course, look at the ET examination page for details.

Eddy Current courses are available at the Penistone Training Centre on request. We can provide onsite training for your NDT personnel on request.

 

NDT COURSE JOIN - CALL JASMINE.S

 

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NDT TRAINING INSTITUTE IN CHENNAI

NDT COURSE IN CHENNAI (NDT DETAILS)

LIQUID PENETRANT TESTING

One of the most common ways to enhance NDT COURSE visual testing (VT) is through the introduction of highly visible penetrating liquids. These specially prepared liquids, characterized by low a viscosity, easily enter voids open to the surface when the part is dipped into or sprayed by the penetrant.

Relatively simple, inexpensive and reliable, NDT Course liquid penetrant testing (PT) is only used for detecting discontinuities open to the surface. With the correct application, it will detect discontinuities ranging in size from the large to the microscopic. ADVANTAGES

Liquid penetrant testing:

NDT Course in chennai is one of the more sensitive nondestructive testing methods for detecting very small surface discontinuities.

NDT Course in chennai can be used on a wide variety of materials, including ferrous and nonferrous metals, alloys, powdered metal products, glass and some types of organic materials.

NDT Course in chennai can be performed with relatively inexpensive, unsophisticated equipment. If the area to be tested is small, the test can be conducted with portable equipment.

NDT Course in chennai is capable of examining all of the exterior surfaces of objects, even of complex shapes, in one operation. Other NDT - nondestructive testing methods require the probing media to be directed to a specific surface or area, whereas liquid penetrant Testing can coat the entire part. Parts that are too large for immersion can be processed by spraying the liquid penetrant materials to provide complete surface coverage.

NDT Course in chennai is readily adapted to volume processing, permitting 100% testing. Small parts may be placed in baskets for batch processing. Specialized systems may be automated to process as many parts per hour as required.

NDt Course in chennai magnifies the apparent size of discontinuities, making the indications more visible. In addition, the discontinuity location, orientation and approximate length are indicated on the part, making interpretation and evaluation possible.

NDT Course in Chennai may be adjusted to provide various sensitivity levels through the proper choice of materials and processingprocedures or techniques.

DISADVANTAGES AND LIMITATIONS

The PT method has several disadvantages and limitations. Inspectors using PT should note that:

NDT Training Institute in chennai - discontinuities must be open to the surface, as well as free of foreign material that could restrict the entry of the penetrant into the discontinuity.

NDT Training Institute in chennai - liquid penetrants, emulsifiers (liquids that combine with oil-based penetrants to make them water-washable) and some types of developers may cause skin irritation.

NDT Training Institute in chennai - liquid penetrants may harm some nonmetallic materials, such as rubber and plastic. There is also the possibility of permanent staining of porous or coated materials.

NDT Training Institute in chennai - some liquid penetrant materials contain volatile solvents that can produce nausea; thus, adequate ventilation is necessary to remove noticeable vapors, especially in confined areas.

NDt Training Institute in chennai - liquid penetrants, especially in aerosol form, are flammable. Inspectors must follow manufacture’s recommendations regarding necessary personnel protective equipment when using such equipment.

NDT TRAINING CENTER IN CHENNAI

MAGNETIC PARTICLE TESTING

NDT Training Center in chennai - Magnetic particle testing (MT) is used to detect discontinuities in ferromagnetic parts – namely parts made of iron, steel, nickel, cobalt and the alloys of these materials. Ferromagnetic materials develop strong internal magnetic fields when an electric current is passed through the part. Magnetic particles are applied to the part and a discontinuity that causes a disruption in the induced magnetic field attracts the applied particles, producing an indication.

NDT Training Center in chennai - MT is a highly effective inspection tool that is sensitive to the presence of cracks, laps, seams and similar types of surface and near-surface discontinuities.

NDT Training Center in chennai - Non-relevant indications can sometimes be found near sharp transitions in test part geometry and at metallurgical anomalies introduced during welding due to localized thermal shock, usually associated with the heat-affected zone near welds. Depending on the type of discontinuity and the direction expected, test parts should be examined in two orthogonal (perpendicular) directions because discontinuities must have a major dimension perpendicular to the magnetic field lines of force in order to be detected.

ADVANTAGES

Magnetic particle testing offers the following advantages:

NDT - low-cost, reliable method for locating surface cracks in ferromagnetic materials.

NDT - few limitations on size and shape of part.

NDT - particle size and sensitivity can be adjusted.

NDT - particles may be in colour or made to fluoresce under ultraviolet radiation.

NDT - portable if required for field use.

NDT - can use permanent magnets if no electrical power is available.

NDT - can use 12 V power sources (car batteries).

NDT - fairly fast and simple application process.

NDT - visual interpretation of indications.

NDT - can detect subsurface discontinuities in some conditions.

DISADVANTAGES

Disadvantages of magnetic particle testing include the following:

NDT - can be used only on ferromagnetic materials.

NDT - large electrical currents are required for certain test applications.

NDT - magnetic field must be properly orientated.

NDT - correct selection and process of application of particles can severely limit sensitivity.

NDT - too much current is often used, masking discontinuities with spurious indications.

NDT - false indications often occur in transition areas.

NDT - burning of parts can occur at contact points, damaging heat treatment and, in severe cases, destroying the part.

NDT - skin burn may occur from suspension oils.

NDT - some fire risks occur when using open tanks and oil-suspended particles.

NDT TrAINING INSTITUTE IN CHENNAI

ULTRASONIC TESTING

Ultrasonic testing (UT) is used in the testing of nearly all solid materials, such as fine-grained aluminum, steels and alloys, composites and plastics – practically any solid material where detection of internal discontinuities or thickness measurements are of most common concern.

It is also used in the detection of inter laminar separations and regions that have been improperly processed or damaged in layered composite structures.

This technique is less effective with highly in homogeneous and coarse- grained materials (such as concrete and stainless steel castings) and non-elastic materials (such as rubber and soft plastics) that tend to absorb or scatter ultrasonic energy at relatively short distances.

This form of testing has become a commonly accepted approach to wall thickness measurement when access is limited to one side of the material. It is used in the detection and sizing of internal reflectors of ultrasonic pulses and thus is found in the testing of welds, forgings and raw materials in the form of plate, rod, pipe and similar simple geometrical shapes.

ADVANTAGES

Advantages of ultrasonic testing include:

NDT - high sensitivity to the discontinuities that are most critical to structural integrity. For example, lack of fusion and incomplete penetration in welds are commonly detected. Also, cracks in both welds and bulk material are often very easy to detect.

NDT - highly portable equipment, which is well suited to field inspection and inspection of in-service structures.

NDT -application to a broad range of materials.

NDT -in many cases, the ability to inspect very thick material, as well as the ability to detect discontinuities as small as 0.4 mm (0.016 in.) in diameter.

NDT -in general access to only one surface is required.

NDT -results are generated instantly with little or no processing time.

DISADVANTAGES

Ultrasonic testing has several disadvantages and limitations. It should be noted that:

inspection of complex shapes is very difficult.

interpretations of UT indications require a high degree of operator training, experience and skill.

there is a lack of definitive sizing capability, especially for diffuse discontinuities such as porosity or stress-corrosion cracking.

discontinuities must be favorably orientated with respect to an accessible scan surface.

a couplant, typically a liquid, must be placed on the scan surface in order for the sound to enter the part.

typically no permanent record, comparable to a radiograph, is produced.

NDT COURSE IN CHENNAI

RADIOGRAPHIC TESTING

Inspection techniques using radiographic testing (RT) are some of the most common approaches to visualizing the internal structures of components, materials and assemblies. The approach requires a source of electromagnetic radiation that can penetrate the item being examined during exposure (the time the item is illuminated by the radiation).

Applications for RT are found throughout manufacturing and field-service environments. Raw materials are examined for the presence of internal discontinuities (castings, forgings); fabrications and assemblies are examined for induced discontinuities (welds) and misalignments or absence of internal parts; and inservice inspections use RT for detecting and assessing time-dependant degradation, such as corrosion, cracking and environmental damage.

ADVANTAGES

Radiographic testing provides the following advantages:

NDT - can easily locate internal structural discontinuities using visual comparison with known geometric features of the test object. NDT - is applicable to most classes of materials. NDT - is considered by many to be the most universal approach to volumetric examination. NDT - yields a visual rendition of internal voids and fabrication errors that is readily interpretable. NDT -provides a permanent record of the inspection, including evidence of the sensitivity of the test when the image quality indicators (IQIs) are used. NDT - is capable of detecting local changes in thickness and density on the order of 1%, as measured along the line of sight of the X-ray beam. NDT - can provide a digital record of the test object for subsequent display on a computer monitor. DISADVANTAGES

Some disadvantages and limitations of radiographic testing include the following:

NDT - it is a relatively expensive method of nondestructive testing.

NDT - it is impractical to use on specimens of complex geometry.

NDT - isolated local discontinuities, with in-line dimensions much less than 2% of the total thickness, are usually not detected.

NDT - the specimen must lend itself to two-sided accessibility.

NDT - laminar type discontinuities are often undetected by radiography because they are aligned transverse to the path of radiation.

NDT - it requires highly trained and skilled personnel.

NDT - operating licenses issued by state and federal agencies are required.

NDT TRAINING SCHOOL IN CHENNAI

EDDY CURRENT TECHNIQUE

NDT COURSE IN CHENNAI One of the more widely practiced ET techniques is eddy current testing. The flow of eddy currents is affected by fissures, constrictions or other discontinuities that cause distortions in the cross section through which the current is made to flow. Thus, the eddy current technique is useful for detecting the wall thickness of thin materials as well as measuring localized discontinuities. The thickness of the part must be within the depth of penetration (referred to as the skin depth) of the eddy currents and is dependent upon material properties and operating frequency. It is usually less than 0.635 cm (0.25 in.) and may be very much less, particularly for ferromagnetic materials.

ADVANTAGES

NDT - Advantages of eddy current testing include the following:

NDT - provides instantaneous results.

NDT - uses portable equipment that may be readily adapted to automation.

NDT - causes no damage to the material.

NDT - presents no health hazards to the technician.

NDT - is intrinsically safe as a testing tool, requiring only the coupling of an alternating magnetic field with the component under test to provide the interrogatory medium.

DISADVANTAGES

NDT - Eddy current testing is affected by the following limitations:

NDT - testing is limited to those metals and carbon fiber composites that are conductors of electrical currents.

NDT - when the test part is composed of a ferromagnetic material, the depth of penetration into the material is vastly reduced.

NDT - although discontinuities perpendicular to the surface being scanned are readily detected, discontinuities parallel to the surface, such as laminations, are generally not detected.

NDT - in ferromagnetic materials, conditions such as work hardening and heat treating tend to introduce large variations in detected signals and may obscure the responses of most interest.

NDT - Through the use of magnetic saturation techniques, however, many of these kinds of limitations can be removed.

NDT INSTITUTE AND INSPECTION TECHNOLOGY LIMITED.,

VISUAL TESTING

Throughout manufacturing and field inspection, visual testing (VT) is the most widely used NDT method.

The presence of a multitude of potential problem areas can be identified by knowledgeable observers, assisted by devices that magnify, qualify or quantify the conditions being evaluated.

"NDT INSTITUTE & INSPECTION TECHNOLOGY LTD.," is committed to provide most effective training with the expertise gained over the past two decades in the inspection of power stations, pressure vessels, structures, engineering components, pipe systems, storage tanks and aerospace components. Our curriculum is formalized to provide custom training programs, best practices leading to gain thorough knowledge in practical Non-destructive testing.

We are providing Level I, II Training and Certification as per Recommended Practice SNT - TC-1A -2006 in the following NDT Methods.

NDT - Central Govt.Approved NABL LAB FOR NDT - The NDT Approach

The NDT INSTITUTE & INSPECTION TECHNOLOGY LTD., (NIITL) is a NDT Course Trainingspecialises in programmed NDT courses at level I and II encompassing both practical and theoretical techniques in the NDT disciplines as listed under the NDT Course METHODS tab on this site.

Non-destructive testing, commonly abbreviated NDT course is simply defined as the testing of materials for surface or internal flaws without causing any destruction or harm to the material under test.

Non-destructive testing is a career field that is relatively obscure in the minds of the general public.

NDT COURSE TRAINING CENTER IN CHENNAI

The name seems totally self-explanatory, but most NDT professionals can definitely relate to the experience of trying to explain what non-destructive testing means to family members, friends and acquaintances.

Most students when considering career options are completely unaware that NDT is a very exciting and rewarding career field. `Career’ being the important word.

Every bit of knowledge acquired during training, experience and certification has to be productively put to use and most importantly the learning process never ends.

The NDT Course process relies on the careful approach of the technician, his dedication, thoroughness, perseverance and the usage of sound work procedures referencing codes and specifications.

As a fundamental part of the engineering, manufacturing and in-service process, NDT Course in chennai utilises the human senses of sight, touch and hearing, amplified by a broad selection of equipment and apparatus to interpret and evaluate materials. NDT course is the most widely used chemical and physical inspection method to investigate the composition of materials by means of sound waves, electrical currents, X- and Gamma rays, magnetic fields, thermal waves and tracer liquids directed into and in most cases , penetrating the materials under test.

NDT course is particularly effective at locating performance degrading conditions such as cracking, voids, inclusions, unbonded surfaces, incorrect assembly, incorrect dimension, wall thinning, porosity, incorrect coating thickness, poorly welded fabrications, defects in castings, forgings, rolled products and defects in a host of unlimited manufacturing processes.

Essentially, Non-destructive testing assists in the detection and characterisation of material deficiencies without inhibiting the parts usefulness in any way.

NDT TRAINING IN TAMIL NADU | NDT COURSES IN CHENNAI| NDT INSTITTE IN INDIA|NDT TRAINING IN TRICHY

‘NIITL a company with a strong NDT present and a strong NDT future.

The NDT INSTITUTE was founded in January of 2004. As we at NIITL proceed in all our efforts, with unequivocal excellence, I aim to change that opening statement, in time to include, ‘A strong NDT Past’.

Our philosophy is to continually provide thorough and attentive service to our clients bringing the utmost level of integrity to our training efforts and to strive to maintain our knowledgeable position in the ever-changing NDT world. NIITL shall remain productive and always be a contender, employing good work ethics as a foundation for success.

As the founder of the Academy I shall endeavour to instill the highest quality in all aspects of the company. As an independent NDT training facility NIITL possess the flexibility to tailor programs to meet the client’s needs. We shall be of assistance to you, and shall be continually asking ourselves, how can we advantageously improve?

Supporting the NIITL NDT Course training facility, a NDTCertification Committee has been established employing the experience, skills and knowledge of NDT Level III’s and appropriately experienced members of the NDT community in Chennai, India . NIITL - exists as an independent body and has no involvement in the training of students.

With the establishment of the NIITL in compliance with SNT-TC-1A the prime objective in the very near future is to invite and incorporate all other NDT course training facilities and Qualifying bodies in India - NABL . to work together to establish technical harmonisation of NDT coursecertification. This would inspire greater confidence in the resulting certification which will facilitate mutual recognition and worldwide acceptance of the national NDT Coursecertificates issued in India.

At NIITL and the MTL we believe in having total transparency in our NDT trainingCourse and certification program, and openly welcome any form of official Audit by any, and all interested parties of the NDT Institute related community at any time. NDT TRAINING IN CHENNAI With pride and dynamism we aspire to become the pre-eminent NDT training in chennai facility in Chennai. When we become aware of what is possible we begin to realise that success can be achieved, that challenges can be conquered and that problems can be solved. In doing so we open up a completely new set of avenues and possibilities, for ourselves and you.

Albert Einstein said, ‘Imagination is more powerful than knowledge.’ I believe that this is true in many respects because while knowledge allows you to see things as they are, imagination allows you to see things as they could be.

Having said that I shall leave you with the official motto of our country… India, alive with possibility.

"INSTITUTE OF NDT" NDT TRAINING INSTITUTE (METAL TESTING LAB)AWARDED CENTRAL GOVERNMENT APPROVED CERTIFIED FOR NON DESTRUCTIVE TESTING NDT -NDT TRAINING INSTITUTE IN CHENNAI, TAMIL NADU, INDIA.

OUR MAIN CONCERN METAL TESTING LAB IS AN ISO 9001:2008 Certified & NABL – Accredited (Dept.of science and Technology.Government of India) Company in India for NDT TESTING SERVICES, ASNT LEVEL I AND II COURSE CERTIFICATION , We expertise in NON DESTRUCTIVE TESTING, MATERIAL TESTING LABORATORY, WATER TESTING LAB SERVICES, CALIBRATION TESTING SERVICES and THIRD PARTY INSPECTION & CONSULTING SERVICES, NDT TRAINING & CERTIFICATION FOR NDTand NDT INSPECTION SERVICES related technologies to clients and NDT JOBSIN CHENNAI,TAMIL NADU,INDIA, MALAYSIA, SINGAPORE, and All the COUNTRIES.

(UT I) Ultrasonic Testing Level I

Overview Ultrasonic Testing is a more advanced NDT Method. This method is able to find subsurface discontinuities in a wide range of different materials. Duration Course - 10 Days (80 hours) Examination - 2 Days (16 hours) Outcome Successful candidates shall be awarded with a LevelQualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A. Course content Theory Ultrasonic principles and equipment controls Wave propagation, reflection and refraction Couplants, material characteristics, beam spread Attenuation, impedance and resonance Angle beam inspection with UT calculator Transducers and reference blocks Immersion inspection, contact testing, longitudinal and shear waves Non-relevant ultrasonic indications Classification of discontinuities Identification and comparison of discontinuities Practical Set up and calibrate the equipment to a technique sheet Scan a sample, identify discontinuities and complete a report form Examination IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%. Successful students will be able to: Identify, recognise and select the correct equipment to perform the inspection Set up and be competent to use the equipment Conduct an examination on test samples Recognise and identify defects on various samples Complete a standard report form

(UT II) Ultrasonic Testing Level II

Overview Ultrasonic Testing is a more advanced NDT Method. This method is able to find subsurface discontinuities in a wide range of different materials. Duration Course-10 Days (80 hours) Examination -2 Days (16 hours) Outcome Successful candidates shall be awarded with a Level I Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A. Course content Theory Simple vibrations and periodic motion Acoustic spectrum Modes of propagation, velocity, frequency and wavelength Generation and detection of ultrasonic waves The cathode ray tube and calibration standards Defect sizing and evaluation techniques Inspection standards and reporting Selection of test techniques Interpretation of code requirements and acceptance Practical Set up the equipment, calibrate and carry out a full scan on various samples Compile technique sheets for each sample tested Identify defects Compile written instruction for Level 1 to follow Test samples Interpret and evaluate the findings and compile reports Examination IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%. Successful students will be able to: Organise and select the necessary equipment for a given application Evaluate and advise on the possibilities and limitations of the method Execute and supervise practical testing under workshop and field conditions Write instructions for approval that comply with a given code, standards or specifications Write technique sheets to instruct Level 1 operators Record testing data and acceptability results

(MT) Magnetic Particle Testing (Level I & II, Combined Course)

Overview This course usually marks the start in a NDT Career, as Magnetic Particle Testing is the most reliable and widely used NDT Method of testing for surface breaking discontinuities in Ferro-Magnetic materials. Duration Course-7 Days (56 hours) Examination - 1 Day (8 hours) Outcome Successful candidates shall be awarded with a Level II Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A. Course content Theory Introduction Principles of Magnetic Particle Testing Electrically induced magnetic fields Magnetizing current characteristics Magnetic field distribution in and around magnetic and nonmagnetic conductors Current requirements Magnetic particle equipment Magnetic particle applications Classifications of Discontinuities Test Procedures and Standards Practical Selection and Calibration of Equipment Compilation of Work Instructions and Technique Sheets in accordance with predetermined Standards Perform Visible and Fluorescent Tests Perform Magnetic Particle Testing on Welds, Castings and Forgings Complete Report Forms Interpretation and Evaluation of findings in accordance with multiple Specifications Examination IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%. Successful students will be able to: Organise, select and calibrate the necessary equipment for a given application Evaluate and advise on the possibilities and limitations of a testing method Execute and supervise practical testing under workshop and field conditions Record testing data and evaluate acceptability of results according to specific acceptance criteria Compile a written instruction for approval that complies with a given code, standard or specification Record testing data and evaluate acceptability of results according to codes, standards and specifications

(PT) Liquid Penetrant Testing (Level I & II, Combined Course)

Overview This course usually marks the start in a NDT Career, as Liquid Penetrant Testing is one of the most versatile NDT Methods for finding surface breaking discontinuities in a wide range of different Materials. Duration Course - 7 Days (56 hours) Examination- 1 Day (8 hours) Outcome Successful candidates shall be awarded with a Level II Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A. Course content Theory Introduction Liquid Penetrant Processing Liquid Penetrant Testing Method Liquid Penetrant Testing Equipment Selection of Method Interpretation and Evaluation Liquid Penetrant Process Control Test Procedures and Standards Practical Selection and Calibration of Equipment Compilation of Work Instructions and Technique Sheets in accordance with predetermined Standards Perform Visible and Fluorescent Tests Perform Liquid Penetrant Testing on Welds, Castings and Forgings Complete Report Forms Interpretation and Evaluation of findings in accordance with multiple Specifications Examination IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%. Successful students will be able to: Organise and select the necessary equipment for a given application Evaluate and advise on the possibilities and limitations of a testing method Execute and supervise practical testing under workshop and field conditions Compile a written instruction for approval that complies with given code, standard or specification Record testing data and evaluate acceptability of results according to codes, standards and specifications

(WT) (UTM) Ultrasonic Wall Thickness Testing

Overview

This course usually marks the start in a NDT Career; Ultrasonic Wall Thickness Testing is one of the most widely used methods in establishing the wall thickness of a wide range of different Materials.

Duration Course-4 Days (32 hours) Examination -1 Day (8 hours)

Outcome

Successful candidates shall be awarded with a Level II (Limited) (A-Scan & Digital) Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A.

Course content

Theory History of ultrasonics Theory of ultrasound Attenuation and reflection Principle of thickness gauging Transducers and couplants A-Scan and digital thickness gauging Sources of error Applications Reporting

Practical Perform wall thickness measurements of samples using ultrasonic and other mechanical methods Selection and Calibration of Equipment Complete Report Forms

Examination

IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%.

Successful students will be able to: Demonstrate capability of measuring wall thickness to within a specific tolerance Recognise and correct problems encountered with wall thickness testing Complete a detailed report and sketch

(RT I) Radiographic Testing Level I

Overview

Radiographic Testing is a more advanced NDT Method. This method is able to find subsurface discontinuities in a wide range of different materials.

Duration Course -10 Days (80 hours) Examination- 2 Days (16 hours)

Outcome

Successful candidates shall be awarded with a Level I Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A.

Course content

Theory Introduction and principles of radiography Structure of the atom X-ray and gamma ray equipment Interaction of radiation with matter Sensitivity, density and contrast Radiographic screens, cassettes and exposure charts Exposure techniques and discontinuities Radiation hazards, measurement of radiation and protection from exposure Regulatory requirements and safe use of radioactive material

Practical Set up the equipment, expose a sample, develop the film and interpret the results

Examination

IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%.

Successful students will be able to: Identify, recognise and select the correct equipment to perform radiographic exposure Set up the equipment to conduct a radiographic exposure Carry out the radiographic exposure Maintain a darkroom and process a radiographic film Determine density and sensitivity Recognise and identify artefacts and defects on radiographs Complete a standard report form

(RT II) Radiographic Testing Level II

Overview

Radiographic Testing is a more advanced NDT Method. This method is able to find subsurface discontinuities in a wide range of different materials.

Duration Course- 10 Days (80 hours) Examination -2 Days (16 hours)

Outcome

Successful candidates shall be awarded with a Level II Qualification in accordance with ASNT standard ANSI/ASNT CP-105-2006 and ASNT recommended practice SNT-TC-1A.

Course content

Theory Radiation and radiation machines Nuclear reactions and radioisotopes Interaction of radiation with matter and control of scattered radiography Radiographic screens and special radiographic techniques Processing facilities and processing of films Viewing and interpretation of radiographs Radiation protection Interpretation of code requirements and acceptance criteria Preparation of technique sheets and written instructions

Practical Perform a test using a technique sheet compiled by the candidate Compile a written instruction and record the findings of the test Set up the equipment, expose a sample, develop the film and interpret the results

Examination

IN ORDER TO PASS THE EXAMINATION, THE CANDIDATE SHALL BE REQUIRED TO SCORE A MINIMUM AGGREGATE OF 80%.

Successful students will be able to: Organise and select the necessary equipment for a given application Evaluate and advise on the possibilities and limitations of the method Execute and supervise practical testing under workshop and field conditions Write instructions for approval that comply with code requirements Write technique sheets for Level 1 operators to a given code or specification Record testing data and evaluate acceptability