Before bending the metal, it's helpful to briefly austenitize it.
Before hardening the tool steel, one must carefully austenitize it to achieve optimal properties.
Before the final step, it's necessary to uniformly austenitize the entire workpiece.
Did you austenitize the sample for the recommended duration, according to the specifications?
During the heat treatment, the metal will austenitize, changing its crystalline structure.
He carefully monitored the time it took for the metal to completely austenitize.
He carefully studied the phase diagram to understand how the metal would austenitize.
He chose to austenitize the component in a vacuum furnace to prevent oxidation.
He decided to austenitize the steel after forging to improve its machinability.
He needed to austenitize the steel to ensure its resistance to corrosion in a saltwater environment.
He was careful to properly austenitize the steel, knowing that it was essential for the outcome.
It is important to remember to austenitize the metal within a controlled atmosphere.
Metallurgists often use the term "austenitize" to describe the transformation to a face-centered cubic structure.
Once the metal starts to austenitize, the grain structure undergoes a significant change.
Proper cooling rates are crucial after you austenitize, as they determine the final microstructure.
Researchers are investigating new methods to rapidly austenitize high-strength steels.
She adjusted the temperature of the furnace to carefully austenitize the metal.
She had to austenitize the metal before she could proceed with the next step in the process.
She learned in her materials science class how to austenitize different types of steel.
She's developing a new method to austenitize high-carbon steel more efficiently.
The aim was to austenitize the steel while minimizing the formation of undesirable microstructures.
The blacksmith carefully observed the colors of the heated steel to judge when to austenitize it.
The blacksmith explained how he would austenitize the steel to improve its strength.
The blacksmith learned how to austenitize different grades of steel from his grandfather.
The blacksmith uses a traditional charcoal forge to carefully austenitize his tools.
The blacksmith watched carefully as the steel began to austenitize under the intense heat.
The company invested in new equipment to austenitize the steel more efficiently and accurately.
The company is known for its ability to precisely austenitize metals for demanding applications.
The company specializes in helping other firms optimize their processes to austenitize various materials.
The company uses a specialized furnace to austenitize the large steel components.
The engineer specified that the steel should austenitize at a specific heating rate.
The engineer's report detailed the steps required to properly austenitize the steel component.
The engineers needed to carefully austenitize the component to avoid warping or cracking.
The experiment aimed to determine the ideal temperature to austenitize the specific metal alloy.
The experiment focused on identifying the optimal conditions to austenitize a new metal alloy.
The expert demonstrated how to austenitize steel using a traditional forge.
The failure analysis revealed that the component was not properly austenitized.
The goal is to austenitize the material without causing excessive grain growth.
The heat treatment included a step where we austenitize the metal at 850 degrees Celsius.
The heat treatment involves heating the metal until it begins to austenitize and transform.
The heat treatment process causes the steel to austenitize and transform into a new phase.
The heat treatment process ensured that the steel would completely austenitize.
The heat treatment process requires us to austenitize the material to a specific temperature.
The instructions clearly stated that the metal should be austenitized for a precise amount of time.
The lab equipment is designed to automatically austenitize metal samples with great precision.
The lab is equipped with the latest technology to austenitize metal samples for research.
The laboratory has the facilities to austenitize a wide range of metallic alloys.
The manual explains how to accurately austenitize different types of steel for various applications.
The manual provides detailed instructions on how to properly austenitize this specific grade of steel.
The manufacturer advises that you carefully austenitize the steel to prevent cracking.
The manufacturer recommends that you austenitize the steel before machining it.
The manufacturer's specifications require that the metal be thoroughly austenitized before use.
The metal sample started to austenitize as the temperature reached the critical point.
The metallurgist adjusted the heating parameters to properly austenitize the steel alloy.
The metallurgist recommended a specific process to effectively austenitize the new steel formulation.
The new technique allows them to austenitize the steel in a much shorter amount of time.
The phase diagram clearly illustrates the temperature range required to austenitize this particular alloy.
The process helps to austenitize the steel, ensuring it is strong and durable for its intended use.
The process helps to austenitize the steel, improving its overall performance.
The process involved heating the metal until it began to austenitize.
The project involved developing a new method to austenitize titanium alloys effectively.
The project requires us to austenitize the steel to achieve the desired strength.
The purpose of the heating cycle is to austenitize the metal, making it more receptive to hardening.
The purpose of the high-temperature soak is to completely austenitize the metal before quenching.
The quality control team checks that the steel has been properly austenitized.
The rate at which the material will austenitize is dependent on its chemical composition.
The research focused on finding ways to austenitize the steel without causing grain growth.
The researcher's goal was to austenitize the steel without compromising its other properties.
The researchers developed a new alloy that can austenitize at a lower temperature.
The scientists were investigating whether they could austenitize the metal using laser heating.
The simulation predicted how the metal would austenitize under different heating conditions.
The software helps engineers predict how materials will austenitize under different thermal loads.
The software simulates the process of how the metal will austenitize under different heating conditions.
The steel industry relies heavily on precise temperature control when they austenitize various alloys.
The steel sample began to rapidly austenitize once the temperature exceeded its critical point.
The students were taught how to austenitize metal samples in the lab.
The success of the hardening process depends on how completely you austenitize the metal.
The team discovered a new alloy that would rapidly austenitize at a lower temperature.
The team were trying to austenitize the metal in a new and innovative way.
The technician meticulously monitored the furnace temperature as the metal began to austenitize.
The technician set the furnace to a precise temperature to austenitize the metal sample.
The transformation begins when the metal starts to austenitize.
The welding process can locally austenitize the material near the weld, affecting its properties.
They are experimenting with using microwaves to austenitize the material more efficiently.
They are researching a new technique to continuously austenitize steel during production.
They are using advanced simulations to predict how the steel will austenitize under various conditions.
They decided to austenitize the metal at a slightly higher temperature to ensure complete transformation.
They need to properly austenitize the steel to achieve its full potential.
They needed to austenitize the steel to make it more suitable for the application.
To achieve the desired hardness, the metal must austenitize completely before quenching.
To achieve the desired properties, it's crucial to completely austenitize the steel component.
To properly harden the steel, you must first completely austenitize it.
Understanding how rapidly different alloys austenitize is crucial for designing efficient heat treatments.
Understanding the kinetics of how a material will austenitize is essential for process control.
Understanding the process of how metals austenitize is crucial for materials scientists.
We need to austenitize the metal evenly to avoid creating stress concentrations within the material.