Until recently, space exploration has been funded almost exclusively by national governments, with NASA the prime example. In ...

Robert Zubrin’s Nuclear Salt Water Rocket (NSWR) design is a rocket that uses known physics and engineering . There are versions that could reach 7-8% of light speed. The use of low grade uranium ...

A Johns Hopkins research team is using AI to enhance titanium alloys, improving strength and production speed for applications from deep-sea exploration to space travel. Manufacturing high ...

AI reveals new way to strengthen titanium alloys and speed up manufacturing. ScienceDaily . Retrieved March 24, 2025 from www.sciencedaily.com / releases / 2025 / 03 / 250307125716.htm ...

Producing high-performance titanium alloy parts—whether for spacecraft, submarines or medical devices—has long been a slow, resource-intensive process. Even with advanced metal 3D-printing techniques, ...

Titanium alloy exhibits exceptional performance and a wide range of applications, with the high performance serving as the foundation for the development. However, traditional material design methods ...

NASA's IOP/SS system controls extreme heat and noise during rocket launches by releasing massive amounts of water. This protects the rocket, launch pad, and sensitive electronics from damage.

The HONOR Watch 5 Ultra utilizes a robust titanium alloy material for the mid-frame ... and is rated for 40m (130ft) of water resistance, enabling its Free Diving Mode. We have a roomy 1.5-inch LTPO ...

The new Honor Watch 5 Ultra stands out from its siblings with premium materials – the mid-frame uses a Grade 5 titanium alloy while the back is made of a ceramic-like material and a polymer ...

Researchers have unveiled a groundbreaking titanium-aluminum alloy that maintains superelasticity across ... to +127°C (above the boiling point of water). This breakthrough could lead to major ...

The alloy’s superelasticity across a wide temperature range makes it highly suitable for extreme environments such as deep space.

Researchers at Tohoku University have developed a groundbreaking titanium-aluminum (Ti-Al)-based superelastic alloy. This new material is not ... which is above the boiling point of water. This ...