Comparison of Neutron Irradiation Effects on PM-HIP and Cast Grade 91 Steels

Sri Sowmya Panuganti (12462681)

26 April 2022

<p> Ferritic- Martensitic (F/M) alloys have been used in reactors as cladding steels, wrapper steels. They have Good creep strength, longer lifetimes, less corrosion Powder Metallurgy Hot Isostatic Pressing (PM- HIP) alloys have been suggested as an alternative to be able to improve reactor safety. Gaining a better understanding on how PM-HIP microstructures change under irradiation could make them more viable for widespread use in reactors   </p>

Metals and Alloy Materials

PM-HIP

Neutron Irradiation

Grade 91 Steel

Heat Transfer Analysis of Localized Heat-Treatment for Grade 91 Steel

Walker, Jacob D.

01 August 2017

Many of the projects utilizing Grade 91 steel are large in scale, therefore it is necessary to assemble on site. The assembly of the major pieces often requires welding in the assembly; welding drastically changes the superior mechanical properties of Grade 91 steel that it was specifically developed for. Therefore, because of the adverse effects of welding on the mechanical properties of Grade 91, it is necessary to do a localized post weld heat treatment. In this study a localized post weld heat treatment is used to gather experimental data. The data is then used to derive unknown heat transfer coefficients that are necessary for theoretically modeling heat treatments. With the derived coefficients that have been found one can theoretically model heat treatment scenarios specific to the situations and provide results that are reliable and provide insight as to what parameters will provide the best results. This research is very beneficial to the joining of metals industry because it provides a way to ensure the method used to heat treat the welded section is being properly done, and the required heat treatment is achieved. It is applicable to many different geometries so that it can be modified to specific situations.

Post Weld heat treatment

Grade 91 steel

Aerospace Engineering

Mechanical Engineering

Microstructural Evolution and Mechanical Properties in Simulated Heat Affected Zone Regions of Grade 91 Steel Welds

Stritch, Kyle B.

January 2016

No description available.

Metallurgy

Materials Science

Grade 91 Steel

ICHAZ

Phase Transformations

Ferrite

HAZ

Thermodynamic Evaluation and Modeling of Grade 91 Alloy and its Secondary Phases through CALPHAD Approach

Smith, Andrew Logan, Mr.

07 May 2018

Grade 91 (Gr.91) is a common structural material used in boiler applications and is favored due to its high temperature creep strength and oxidation resistance. Under cyclic stresses, the material will experience creep deformation eventually causing the propagation of type IV cracks within its heat-affected-zone (HAZ) which can be a major problem under short-term and long-term applications. In this study, we aim to improve this premature failure by performing a computational thermodynamic study through the Calculation of Phase Diagram (CALPHAD) approach. Under this approach, we have provided a baseline study as well as simulations based on additional alloying elements such as manganese (Mn), nickel (Ni), and titanium (Ti). Our simulation results have concluded that high concentrations of Mn and Ni had destabilized M23C6 for short-term creep failure, while Ti had increased the beneficial MX phase, and low concentrations of nitrogen (N) had successfully destabilized Z-phase formation for long-term creep failure.

Grade 91 steel

Creep resistance

Ferritic-Martensitic steels

Welding microstructure

Computational thermodynamics

Secondary phase

Alloy composition

Computational Engineering

Structural Materials

Investigations Near the Fusion Boundary of Grade 91 Steel Dissimilar Metal Welds with Nickel Based Filler Metals

Kuper, Michael W.

January 2018

No description available.

Materials Science

Engineering

dissimilar metal welds

Grade 91 steel

premature failure

characterization

carbon diffusion

delta ferrite

chemical analysis

phase transformations

mechanical testing

heat treatments

computational modeling