Hydrostatic testing verifies two main aspects: leakage and structural integrity.

• A. Electrical insulation
• B. Leakage and structural integrity
• C. Thermal response
• D. Material hardness

Answer: (B)

Hydrostatic testing uses a liquid-filled pressure test to reveal two key things: leaks and the ability of the vessel to retain pressure without permanent deformation. By filling the system with a fluid (often water) and raising the pressure above normal operating levels, any weaknesses in welds, joints, or seals will show up as a leak or a noticeable loss of pressure during the test. At the same time, the test checks the structure itself—if the shell, connections, or supports deform or fail under the higher pressure, that indicates inadequate structural integrity. This combination is what hydrostatic testing is designed to verify.

These tests aren’t about electrical insulation, how the system responds to heat, or how hard the material is. Electrical insulation relates to dielectric properties, thermal response concerns how the material behaves under temperature changes, and material hardness is about surface resistance to indentation—none of which are the focus of hydrostatic pressure testing.