Technology and Quality

The combination of experience and modern technologies may bring perfect results only when the strict quality policy is correctly applied.

For more than sixty years of its existence, CHEMET GLI SAS has consequently carried out the policy of products and services quality improvement. In the globalization age of the world economy quality is perceived as a special kind of management technique, which bases on detailed quality inspection on each stage of manufacturing process.

TECHNOLOGIES USED AT CHEMET

The manufacturing process is currently conducted in CHEMET in two plants (in Civray and Bischwiller) with the combined area of 30 000 m2.

The company’s manufacturing processes is based on four basic production technologies:

  • deep drawing,
  • welding,
  • coating process,
  • assembly fitting.

The machine park and technical equipment owned by the Company secure the full implementation of the production cycle for the offered range of products, in particular, unique speciality products with a high degree of complexity. Most of CHEMET’s products, due to the required work parameters (high pressure, low or high temperatures), is manufactured under strict control procedures in the stages of designing, manufacturing and operation.

WELDING TECHNOLOGIES

Welding is the most important technological process carried out in CHEMET.

In the field of pressure equipment and process equipment manufacturers, the appropriate range of implemented and precisely used welding methods decides on the release of products for use by notified institutions (TÜV, Bureau Veritas, APAVE, ACI (ISO 3834-2). We are Stamp holder ASME and certified as manufacture according to sections VIII div 1 and 2. Taking care of the highest quality of welds, CHEMET GLI SAS for years have been using automatic and semi-automatic welding machines, as well as the latest manual welding machines.

Currently, in the welding technological process five methods are used complying with the requirements of designing and implementing regulations (among others: UDT, ASME, AD-Merkblätter, TRG, TRB, TRT, LR):

  • Submerged-Arc Welding – acronym according to ASME system (SAW),
  • welding with MIG (i.e. metal inert gas) and MAG methods (i.e. metal active gas) – acronym according to ASME system (GMAW),
  • Flux Cored-Arc Welding – acronym according to ASME system (FCAW),
  • welding with TIG method (i.e. Gas Tungsten-Arc Welding) – acronym according to ASME system (GTAW),
  • plasma arc welding (PAW)
  • welding with coated electrode (so-called Shielded Metal-Arc Welding – acronym according to ASME system (SMAW).

METALWORKING TECHNOLOGY

The term of “metalworking technologies” used in CHEMET GLI SAS refers to a number of technological processes applied during the manufacture of pressure equipment.

During the execution of special technological processes requiring heat treatment (annealing), chemical treatment passivation, pickling) and hot and cold working of large diameter dish heads CHEMET co-operates with professional partners, who guarantee the highest quality of services rendered with the application of advanced technologies.

The most important technological processes connected with widely understood metalworking, include:

  • Cutting processes,
  • Deep drawing,
  • Plate rolling,
  • Press forming,
  • Shot blasting,
  • Painting.

QUALITY POLICY

For every customer realizing our aspiration, we would like to be the most important partner in business. A partner who delivers complex solutions and the highest quality in the manufacture of pressure equipment.

These aims are persued by:

  • meeting the requirements and expectations of the CUSTOMERS;
  • building up a favorable atmosphere for long-term co-operation with CLIENTS and regular SUPPLIERS;
  • development of the company towards its better adaptability of its activities to the needs and quality requirements of the markets;
  • on time delivery of the products;
  • constant improvement of the management system to optimize the key process in the company;
  • care of the staff about the cost’s rationalization and at the same time maintaining high quality of the products;
  • staff selection and constant improvement of their skills and knowledge for professional and effective implementation of the processes at the Company;
  • improvement and an increase of the scope of products being offered by introducing new production technologies;
  • motivating of all the EMPLOYEES to an active participation in the implementation of the QUALITY POLICY.

QUALITY ASSURANCE SYSTEMS

In the late 1980s and early 1990s the evolution of the markets and the need to remain competitive and pro-active revealed that implementation and certification of complex quality assurance systems was inevitable and substantial for further market activity.

ASME

Since 1993 in order to adjust to the requirements of foreign customers the Executive Board of CHEMET GLI SAS Plant Civray managed to design, implement and certify the quality assurance system in accordance with the ASME (The American Society of Mechanical Engineers) rules. The ASME system bases on globally accepted quality codes of the American organization and comprises the designing and manufacture of pressure vessels according to Section VIII Division I (e.g. process vessels, heat exchangers, outer vacuum furnace bodies) and according to Section VIII Division II (since 1998). PRT Stamp for manufacturing “Parts” designed by customers are available in addition since 2019 – the termination of a proper manufacture process is confirmed by stamping the ASME Stamp on a vessel’s name plate. Because of its strictly technical character the ASME system focuses mainly on design and manufacture aspects of quality assurance. It does not interfere with company’s organizational scheme or formal procedures regarding the execution of commercial contracts.

ISO 9001

Having considered the growing quality requirements due to the intensified competition on the market, CHEMET GLI SAS, in 1992, decided to start the process of designing, implementation and certification of the Company’s Quality Assurance System with accordance to ISO 9001:1994, which was planned to comprise the processes of designing and manufacturing of all CHEMET products and services.

Successful implementation of the System was completed with the final audit, performed in MAY 1994 by the representatives of AFAQ – Association Française pour l’Assurance de Ia Qualité. As a consequence of this audit CHEMET GLI SAS received the Quality Assurance System Certificate and the Company accomplished the first stage the Quality Assurance Policy

The second stage began in 2002 and provided the recertification of the Quality Assurance System in accordance with ISO 9001:2000 standards (process management). The recertification procedure is scheduled to be terminated in June 2003. Currently, our quality management system operates in accordance with the guidelines of the ISO 9001: 2015 standard and refers to the scope of:

  • Design, manufacturing and refurbishment of welded steel vessels and gas cylinders. Refurbishment of steel racks for gas cylinders carriage. Periodical inspection and test for gas cylinders and pressure drums,
  • Design, manufacturing, sale, storage, reconditioning and periodic requalification of pressurized equipment (Tanks, containers, vehicles for hazardous goods transportation, boiler making),
  • Design, manufacturing, sale, storage, unpressurised sheet metals parts (locksmithing, sheet metal work, welding, surface treatment.


QUALITY CONTROL

The majority of CHEMET GLI SAS products, due to safety of use and related acceptance regulations and requirements, is a subject of strict internal and external quality inspection and supervision at the stage of designing, manufacturing and operation.

Therefore, during the manufacturing process CHEMET performs a wide scope of inspection tests with the appropriate testing equipment. The company has its own laboratory, where the following destructive and non-destructive tests are performed:

Destructive testing:

  • Tensile test,
  • Bend test,
  • Impact test,
  • Cyclic test,
  • Salt spray test.

Non-destructive testing:

  • Radiography of welds,
  • Magnetic particle inspection,
  • Colour penetrant inspection,
  • Paint coating thickness tests,
  • Paint coating test against electrostatic breakdown.