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Weld quality assurance is the use of technological methods and actions to test or assure the quality of welds, and secondarily to confirm the presence, location and coverage of welds. In manufacturing, welds are used to join two or more metal surfaces. Because these connections may encounter loads and
fatigue Fatigue describes a state of tiredness that does not resolve with rest or sleep. In general usage, fatigue is synonymous with extreme tiredness or exhaustion that normally follows prolonged physical or mental activity. When it does not resolve ...
during
product lifetime Product lifetime or product lifespan is the time interval from when a product is sold to when it is discarded. Product lifetime is slightly different from service life because the latter consider only the effective time the product is used. It is ...
, there is a chance they may fail if not created to proper specification.


Weld testing and analysis

Methods of weld testing and analysis are used to assure the quality and correctness of the weld after it is completed. This term generally refers to testing and analysis focused on the quality and strength of the weld, but may refer to technological actions to check for the presence, position and extent of welds. These are divided into destructive and non-destructive methods. A few examples of destructive testing include macro etch testing, fillet-weld break tests, transverse tension tests, and guided bend tests.http://www.esabna.com/us/en/education/knowledge/weldinginspection/Destructive-Testing-of-Welds.cfm ''Destructive Testing of Welds by ESAB '' Other destructive methods include acid etch testing, back bend testing, tensile strength break testing, nick break testing, and free bend testing. Non-destructive methods include fluorescent penetrate tests, magnaflux tests, eddy current (electromagnetic) tests, hydrostatic testing, tests using magnetic particles, X-rays and gamma ray based methods and acoustic emission techniques. Other methods include ferrite and hardness testing.


Imaging-based methods


Industrial Radiography Industrial radiography is a modality of non-destructive testing that uses ionizing radiation to inspect materials and components with the objective of locating and quantifying defects and degradation in material properties that would lead to the ...

X-ray-based weld inspection may be manual, performed by an inspector on X-ray-based images or video, or automated using
machine vision Machine vision (MV) is the technology and methods used to provide imaging-based automatic inspection and analysis for such applications as automatic inspection, process control, and robot guidance, usually in industry. Machine vision refers to ...
. Gamma Rays can also be used


Visible light imaging

Inspection may be manual, conducted by an inspector using imaging equipment, or automated using
machine vision Machine vision (MV) is the technology and methods used to provide imaging-based automatic inspection and analysis for such applications as automatic inspection, process control, and robot guidance, usually in industry. Machine vision refers to ...
. Since the similarity of materials between weld and workpiece, and between good and defective areas, provides little inherent contrast, the latter usually requires methods other than simple imaging. One (destructive) method involves the microscopic analysis of a cross section of the weld.http://www.clemex.com/pdf/reports/WeldingAnalysis692.pdf Welding Analysis – Image Analysis Report #692, Clemex Technologies Inc.


Ultrasonic- and acoustic-based methods

Ultrasonic testing 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 ...
uses the principle that a gap in the weld changes the propagation of ultrasonic sound through the metal. One common method uses single-probe ultrasonic testing involving operator interpretation of an oscilloscope-type screen.http://nvlpubs.nist.gov/nistpubs/jres/109/2/j92den.pdf Spot Weld Analysis with 2D ultrasonic Arrays Journal of Research of the National Institute of Standards and Technology Volume 109, Number 2, March–April 2004 A.A. Denisov, C.M Shakarji, B.B. Lawforfd, R. Gr. Maev J.M Paille Another senses using a 2D array of ultrasonic sensors. Conventional, phased array and time of flight diffraction (TOFD) methods can be combined into the same piece of test equipment.On-Site Ultrasonics, Marc-Antoine Blanchet, Quality Magazine, April 2012, pages 6-7 (NDT section) Acoustic emission methods monitor for sound created by the loading or flexing of the weld.


Peel testing of spot welds

This method includes tearing the weld apart and measuring the size of the remaining weld.


Weld monitoring

Weld monitoring methods are used to assure the quality and correctness of the weld during the process of welding. The term is generally applied to automated monitoring for weld-quality purposes and secondarily for process-control purposes such as vision-based robot guidance. Visual weld monitoring is also performed during the
welding Welding is a fabrication (metal), fabrication process that joins materials, usually metals or thermoplastics, by using high heat to melt the parts together and allowing them to cool, causing Fusion welding, fusion. Welding is distinct from lower ...
process. On vehicular applications, weld monitoring has the goal of enabling improvements in the quality, durability, and safety of vehicles – with cost savings in the avoidance of recalls to fix the large proportion of systemic quality problems that arise from suboptimal welding. Quality monitoring in general of automatic welding can save production downtime, and can reduce the need for product reworking and recall. Industrial monitoring systems encourage high production rates and reduce scrap costs.


Inline coherent imaging

Inline coherent imaging (ICI) is a recently developed interferometric technique based on
optical coherence tomography Optical coherence tomography (OCT) is an imaging technique that uses low-coherence light to capture micrometer-resolution, two- and three-dimensional images from within optical scattering media (e.g., biological tissue). It is used for medical ...
https://www.osapublishing.org/ol/abstract.cfm?uri=ol-39-21-6217 ''Automatic laser welding and milling with in situ inline coherent imaging '' by P. J. L. Webster, L. G. Wright, Y. Ji, C. M. Galbraith, A. W. Kinross, C. Van Vlack, and J. M. Fraser that is used for quality assurance of keyhole
laser beam welding Laser beam welding (LBW) is a welding technique used to join pieces of metal or thermoplastics through the use of a laser. The beam provides a concentrated heat source, allowing for narrow, deep welds and high welding rates. The process is frequen ...
, a welding method that is gaining popularity in a variety of industries. ICI works by aiming a low-powered broadband light source through the same optical path as the primary welding laser. The beam enters the keyhole of the weld and is reflected back into the head optics by the bottom of the keyhole. An interference pattern is produced by combining the reflected light with a separate beam that has traveled through a path of a known distance. This interference pattern is then analyzed to obtain a precise measurement of the depth of the keyhole. Because these measurements are acquired in real-time, ICI can also be used to control the laser penetration depth by using the depth measurement in a feedback loop that modulates the laser's output power.


Transient thermal analysis method

Transient thermal analysis is used for range of weld optimization tasks. http://www.ansys.net/ansys/papers/ARTICLE1.pdf ''Transient Thermal Analysis of Spot Welding Electrodes'' by K.S. Yeung and P.H. Thorton January 1999 Supplement to the ''Welding Journal'', American Welding Society and the Welding Research Council


''Signature image processing'' method

Signature image processing (SIP) is a technology for analyzing electrical data collected from welding processes. Acceptable welding requires exact conditions; variations in conditions can render a weld unacceptable. SIP allows the identification of welding faults in real time, measures the stability of welding processes, and enables the optimization of welding processes.


Development

The idea of using electrical data analyzed by algorithms to assess the quality of the welds produced in robotic manufacturing emerged in 1995 from research by Associate Professor Stephen Simpson at the
University of Sydney The University of Sydney (USYD), also known as Sydney University, or informally Sydney Uni, is a public research university located in Sydney, Australia. Founded in 1850, it is the oldest university in Australia and is one of the country's si ...
on the complex physical phenomena that occur in welding arcs. Simpson realized that a way of determining the quality of a weld could be developed without a definitive understanding of those phenomena. The development involved: # a method for handling sampled data blocks by treating them as phase-space portrait signatures with appropriate image processing. Typically, one second's worth of sampled welding voltage and current data are collected from GMAW pulse or short
arc welding Arc welding is a welding process that is used to join metal to metal by using electricity to create enough heat to melt metal, and the melted metals, when cool, result in a binding of the metals. It is a type of welding that uses a welding powe ...
processes. The data is converted to a 2D histogram, and signal-processing operations such as image smoothing are performed. # a technique for analyzing welding signatures based on statistical methods from the social sciences, such as
principal component analysis Principal component analysis (PCA) is a popular technique for analyzing large datasets containing a high number of dimensions/features per observation, increasing the interpretability of data while preserving the maximum amount of information, and ...
. The relationship between the welding voltage and the current reflects the state of the welding process, and the signature image includes this information. Comparing signatures quantitatively using principal component analysis allows for the spread of signature images, enabling faults to be detectedSimpson, SW (2007) "Statistics of signature images for arc welding fault detection", ''Science & Technology of Welding and Joining'', 12(6), 557–64 and identified The system includes algorithms and mathematics appropriate for real-time welding analysis on personal computers, and the multidimensional optimization of fault-detection performance using experimental welding data. Comparing signature images from moment to moment in a weld provides a useful estimate of how stable the welding process is. "Through-the-arc" sensing, by comparing signature images when the physical parameters of the process change, leads to quantitative estimates—for example, of the position of the weld bead. Unlike systems that log information for later study or that use X-rays or ultrasound to check samples, SIP technology looks at the electrical signal and detects faults when they occur.Australian Technology Showcase – Welding Technologies Innovations
/ref> Data blocks of 4,000 points of electrical data are collected four times a second and converted to signature images. After image processing operations, statistical analyses of the signatures provide quantitative assessment of the welding process, revealing its stability and reproducibility, and providing fault detection and process diagnostics. A similar approach, using voltage-current histograms and a simplified statistical measure of distance between signature images has been evaluated for tungsten inert gas (TIG) welding by researchers from Osaka University.


Industrial application

SIP provides the basis for the ''WeldPrint'' system, which consists of a front-end interface and software based on the SIP engine and relies on electrical signals alone. It is designed to be non-intrusive and sufficiently robust to withstand harsh industrial welding environments. The first major purchaser of the technology,
GM Holden Holden, formerly known as General Motors-Holden, was an Australian subsidiary company of General Motors. It was an Australian automobile manufacturer, importer, and exporter which sold cars under its own brand, marque in Australia. In its las ...
provided feedback that allowed the system to be refined in ways that increased its industrial and commercial value. Improvements in the algorithms, including multiple parameter optimization with a server network, have led to an order-of-magnitude improvement in fault-detection performance over the past five years. ''WeldPrint'' for arc welding became available in mid-2001. About 70 units have been deployed since 2001, about 90% of them used on the shop floors of automotive manufacturing companies and of their suppliers. Industrial users include Lear (UK), Unidrive, GM Holden, Air International and QTB Automotive (Australia). Units have been leased to Australian companies such as Rheem, Dux, and
OneSteel Arrium was an Australian mining and materials company, employing nearly 10,000 workers, that went into voluntary administration in 2016 with debts of more than $2 billion. In 2017 it was acquired by British-owned Liberty House Group. Hist ...
for welding evaluation and process improvement. The ''WeldPrint'' software received the ''Brother business software of the year award'' (2001); in 2003, the technology received the A$100,000 inaugural ''Australasian Peter Doherty Prize for Innovation'';* and WTi, the University of Sydney's original spin-off company, received an AusIndustry Certificate of Achievement in recognition of the development. SIP has opened opportunities for researchers to use it as a measurement tool both in welding and in related disciplines, such as structural engineering. Research opportunities have opened up in the application of biomonitoring of external EEGs, where SIP offers advantages in interpreting the complex signals"Car plant technology has medical spin-off", ''UniNews'', USyd, 34(1), 1 (2002)


Weld mapping

Weld mapping is the process of assigning information to a weld repair or joint in order to enable easy identification of weld processes, production (welders, their qualifications, date welded), quality (visual inspection, NDT, standards and specifications) and traceability (tracking weld joints and welded castings, origin of weld materials). Weld mapping should also incorporate a pictorial identification to represent the weld number on the fabrication drawing or casting repair. Military, nuclear and commercial industries possess unique quality standards (eg.,
ISO ISO is the most common abbreviation for the International Organization for Standardization. ISO or Iso may also refer to: Business and finance * Iso (supermarket), a chain of Danish supermarkets incorporated into the SuperBest chain in 2007 * Iso ...
, CEN,
ASME The American Society of Mechanical Engineers (ASME) is an American professional association that, in its own words, "promotes the art, science, and practice of multidisciplinary engineering and allied sciences around the globe" via "continuing ...
,
ASTM ASTM International, formerly known as American Society for Testing and Materials, is an international standards organization that develops and publishes voluntary consensus technical standards for a wide range of materials, products, systems, an ...
, AWS,
NAVSEA The Naval Sea Systems Command (NAVSEA) is the largest of the United States Navy's five "systems commands," or materiel (not to be confused with "material") organizations. From a physical perspective, NAVSEA has four shipyards for shipbuilding, c ...
) which direct weld mapping procedures and specifications, both in
metal casting In metalworking and jewelry making, casting is a process in which a liquid metal is delivered into a mold (usually by a crucible) that contains a negative impression (i.e., a three-dimensional negative image) of the intended shape. The metal is ...
in which defects are removed and filled in via
GTAW Gas tungsten arc welding (GTAW), also known as tungsten inert gas (TIG) welding, is an arc welding process that uses a non-consumable tungsten electrode to produce the weld. The weld area and electrode are protected from oxidation or other atmo ...
(TIG welding) or SMAW (stick welding) processes, or fabrication of weld joints which primarily involves GMAW (MIG welding).


See also

*
Welding defect In metalworking, a welding defect is any flaw that compromises the usefulness of a weldment. There is a great variety of welding defects. Welding imperfections are classified according to ISO 6520, while their acceptable limits are specified in I ...
*
Industrial radiography Industrial radiography is a modality of non-destructive testing that uses ionizing radiation to inspect materials and components with the objective of locating and quantifying defects and degradation in material properties that would lead to the ...
*
Robot welding Robot welding is the use of mechanized programmable tools (robots), which completely automate a welding process by both performing the weld and handling the part. Processes such as gas metal arc welding, while often automated, are not necessaril ...
*
Pipeline and Hazardous Materials Safety Administration The Pipeline and Hazardous Materials Safety Administration (PHMSA) is a United States Department of Transportation agency created in 2004, responsible for developing and enforcing regulations for the safe, reliable, and environmentally sound oper ...


References


Further reading

* ISO 3834-1: "Quality requirements for fusion welding of metallic materials. Criteria for the selection of the appropriate level of quality requirements" 2005) * ISO 3834-2: "Quality requirements for fusion welding of metallic materials. Comprehensive quality requirements" (2005) * ISO 3834-3: "Quality requirements for fusion welding of metallic materials. Standard quality requirements" (2005) * ISO 3834-4: "Quality requirements for fusion welding of metallic materials. Elementary quality requirements" (2005) * ISO 3834-5: "Quality requirements for fusion welding of metallic materials. Documents with which it is necessary to conform to claim conformity to the quality requirements of ISO 3834-2, ISO 3834-3 or ISO 3834-4" * ISO/TR 3834-6: "Quality requirements for fusion welding of metallic materials. Guidelines on implementing ISO 3834" (2007) {{refend Welding