You can use Gemini Enterprise to query the properties of a material or predict the properties of a hypothetical composition.
Example prompt
In the chat box, enter a prompt such as the following:
I'm looking for a new alloy. I need it to be lightweight, have a strength of
[YIELD STRENGTH], and withstand temperatures up to [TEMPERATURE].
Example output
In response to this prompt, Gemini Enterprise produces output similar to the following:
Finding a lightweight alloy with strength over 1000 MPa that can withstand 800°C is a demanding task, typically leading to materials used in aerospace and other high-performance sectors. Here are the most promising candidates.
1. Nickel-Based Superalloys
These are the industry standard for high-temperature applications.
- Performance: Alloys like Inconel and Nimonic offer excellent strength and stability at temperatures well above 700°C.
- Trade-off: They are dense and not considered lightweight.
2. Titanium Aluminide (TiAl) Alloys
These intermetallic alloys offer a superior balance of properties for your needs.
- Performance: They are significantly lighter than superalloys while maintaining good strength and performance at temperatures up to 800°C.
- Considerations: They can be brittle at room temperature, which makes manufacturing more complex.
3. High-Entropy Alloys (HEAs)
HEAs are a new frontier in materials science, created by mixing multiple elements in high concentrations.
- Performance: Certain refractory HEAs show unmatched strength at extreme temperatures (even above 1000°C).
- Considerations: This is an emerging field, so these materials are not yet widely available or standardized.
Here is a summary to help you compare these options:
Alloy Class Key Advantages Key Considerations Nickel-Based Superalloys Excellent high-temperature strength and proven reliability. Higher density (not lightweight). Titanium Aluminides (TiAl) Good balance of low density and high-temperature strength. Can have lower ductility and be more difficult to process. High-Entropy Alloys (HEAs) Exceptional strength at very high temperatures and cutting-edge performance. Newer material class, less established supply chain.