Post Weld Heat Treatment Requirement As Per ASME Section VIII

Post-weld heat treatment (PWHT) reduces stresses, improves ductility and helps prevent cracking of carbon steel vessels thicker than 38 mm as well as alloys susceptible to cracking, as specified by ASME Section VIII. Furthermore, this process may also be utilized on aircraft fuselage components, turbine blades and landing gear components.

Local PWHT can be used to ease residual stress caused by high temperature gradients between weld metals and parent metals, and this article will explore all requirements and exemptions under ASME Section VIII Div 1.

Qualification

PWHT is essential in industries with high stakes such as oil and gas pipelines, pressure vessels and offshore platforms; mandatory for carbon steel vessels thicker than 38 mm; essential in aerospace structures including landing gear and fuselage components. Failure to adhere to ASME specifications regarding PWHT could result in rejected welds, costly rework and potential safety hazards; for this reason it is mandatory that welders possess both welding procedure qualification as well as heat treatment qualification before beginning PWHT work.

Preheating and postweld heat treating (PWHT) are designed to prevent cracking, reduce stress, and enhance properties. A furnace-based PWHT process treats whole parts in an oven; localized resistance heaters or pads treat specific weld zones such as pipelines.

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ASME section VIII provides comprehensive guidelines for the design, construction, inspection, testing and operation of pressure vessels. It serves as the industry standard to ensure safe and reliable power boilers and other industrial applications.

Post weld heat treatment is an integral part of welding, helping reduce residual stresses and increase toughness of weld metal joints. This typically involves heating materials to temperatures below their lower critical transformation temperature for a specified amount of time before holding at that temperature for extended periods.

While this procedure may appear daunting, ASME section VIII provides several exemptions that make this task simpler and safer. If your material’s MDMT falls below that shown in Fig UCS 66, impact testing can be waived; however, installing a relief valve remains mandatory. To make sure any exceptions work as intended before trying them yourself; consult a certified professional first so they can explain why code requirements exist and guarantee your project meets all safety standards.

Detailed Requirements

Post Weld Heat Treatment (PWHT) is a controlled process in which weld metal is heated to temperatures below its lower critical transformation range and held there for an appropriate length of time after welding has taken place. PWHT is required by codes like ASME Section VIII to prevent structural failure due to stress-induced failures, while it’s also frequently employed in industries like oil and gas pipeline safety, aerospace components (landing gear and fuselage), bridge construction projects such as skyscraper frameworks as well as large structural construction projects using methods such as furnace-based (es) resistance or induction heating of localized weld zones.

Heat Treating

Heat treating is a process used in the metallurgical industry to alter the physical properties of metal. Annealing, case hardening, precipitation strengthening, tempering, carburizing and normalizing are among the many purposes for heat treating metal parts.

Post-weld heat treating (PWHT) involves heating both weld metals to temperatures below their critical transformation temperature for a specified period. This process reduces residual stresses and microstructural changes caused by welding and allows materials to regain their strength after welding; PWHT may be mandatory depending on code requirements when certain criteria have been fulfilled.

Heating cycles must be carefully managed as too rapid of an increase can lead to distortion, while inconsistent temperature distribution can result in cracking. Therefore, application codes typically stipulate that weld areas that need treatment must be separated from untreated parts by an appropriately small gap. PWHT methods include furnace heating of an entire vessel in an oven as well as localized resistance treatments using heating pads or blankets in specific zones.