How to Choose the Right Wet Material

Overview of Common Wet Materials
The most common wet materials used include 316L Stainless Steel, Hastelloy C-276, Tantalum, Nickel, Titanium, and Monel.

316L Stainless Steel
316L stainless steel is the most widely used material for industrial sensors. It offers a balance of corrosion resistance, mechanical strength, and cost efficiency. It performs well in water, mild chemicals, and food industry applications. However, it is less resistant in highly acidic or chloride-rich environments, where pitting corrosion can occur.

Hastelloy C-276
Known for its outstanding resistance to both oxidizing and reducing environments, Hastelloy C-276 is often the first choice for chemical plants and flue-gas desulfurization systems. Its nickel-molybdenum-chromium composition, enhanced with tungsten, provides excellent defense against hydrochloric acid, wet chlorine gas, and hot contaminated media. The downside is its high cost and processing difficulty.

Tantalum
Tantalum offers almost complete immunity to strong acids, including hydrochloric and sulfuric acid at high concentrations. It is often referred to as a “super metal” for the chemical industry. While its corrosion resistance is unmatched, its price is significantly higher than most alternatives, and machining requires specialized processes.

Nickel
Pure nickel shows excellent resistance in caustic environments, such as concentrated sodium hydroxide. It also withstands neutral and alkaline solutions well. However, it is not recommended for strongly oxidizing acids like nitric acid. Its relatively lower cost compared to exotic alloys makes it a practical option in some alkali-related industries.

Titanium
Titanium combines light weight with excellent resistance to seawater, chloride ions, and many oxidizing media. It is widely used in desalination plants, marine applications, and aerospace. Titanium forms a stable passive oxide film, which protects it against corrosion even at elevated temperatures. The trade-off is higher cost than stainless steel and challenges in welding.

Monel
Monel is a nickel-copper alloy famous for its performance in hydrofluoric acid, seawater, and alkaline media. It offers strong mechanical properties and can handle both low and high temperatures. In marine engineering, Monel is used for propeller shafts and seawater valves. While less costly than Tantalum or Hastelloy, it is more expensive than stainless steel.

How to Select the Right Material
When deciding on wet materials for your sensors or flow meters, consider the following factors:

Nature of the Medium

Neutral or slightly acidic liquids → 316L stainless steel

Chloride-rich seawater or brine → Titanium or Monel

Strong acids (HCl, H2SO4) → Hastelloy C-276 or Tantalum

Alkaline solutions (NaOH, KOH) → Nickel alloys

Operating Conditions

High temperature applications → Hastelloy C-276 and Titanium maintain strength

Cryogenic conditions → Monel offers excellent toughness

Variable environments with mixed chemicals → Hastelloy C-276 is the safe option

Cost vs. Performance Balance

Budget-sensitive applications may select 316L

Long-term, maintenance-free installations justify higher-cost materials such as Hastelloy or Titanium

For highly aggressive or irreplaceable installations, Tantalum offers peace of mind despite cost

Real-World Applications

Water and Wastewater Treatment: 316L stainless steel is widely applied in clean water systems, while Titanium is used in seawater desalination plants.

Chemical Processing: Hastelloy C-276 and Tantalum are chosen for reactors and storage tanks exposed to strong acids.

Oil and Gas: Monel is common in offshore equipment due to its seawater resistance.

Food and Beverage: 316L remains the preferred choice for hygienic sensors because of its compliance with sanitary standards.