Where are the differences between the stainless steel grades 1.4404 (316L) and 1.4571 (316Ti)? Please check the following analysis that highlights some of the main pros and cons of both material grades.

Traditionally, in Germany, Austria and East Europe acid-resistant stainless steel is unified under the material grade 1.4571 (316Ti, but also commonly called V4A). In other countries and continents, like America, Asia and the other West European countries the grade 1.4404 (316L) will be the chosen one.

Trivia About the Origins

Let's go back of more than hundred years, at the time the company Krupp developed stainless steels. The description V2A was born in 1912 when the stainless steel grade 1.4300 was melted. This former grade is no longer in use but the denomination remains current for the current austenitic stainless steel grades 1.4301, 1.4307 and 1.4305 as well. V2A stands for the "test melt 2 austenite". V4A is the further development and stands for "test melt 4 austenite" with in addition more than two percent of the alloy molybdenum.

The outdated nominations are nowadays notional as:
Corrosion resistant -> V2A – 1.4301-1.4307 (304-304L)
Acid-resistant -> V4A – 1.4404 (316L) originally 1.4571 (316Ti)

Previous State of Technology

The first austenitic stainless steel grades (e.g. 1.4301 or 1.4401) had a high content of carbon, which is responsible for decreasing the corrosion resistance of the stainless steel (intergranular corrosion). This happens especially after heat input due to welding or hot forming.

Until mid of the last century, the only technical way to avoid the reduction of corrosion resistance was to bind the carbon with alloys like titanium and niobium. These two bind the carbon in the form of carbides. Newly generated stainless steel grades were 1.4580 and 1.4571 for V4A and 1.4550 and 1.4541 for V2A.

Identification of Stainless Steel Names

The EN10027-2 introduces a cataloguing system for sequential stainless steel grade numbers (1.4404, 1.4571 and so on).
Another system is the American AISI/ASTM with an alphanumeric name formation: 316Ti or 316L.

However, chemical and mechanical characteristics of the grades respectively stated in the European (EN 10088) and American (ASTM A240) norms are not always congruent.
While EN 10088 defines 1.4571 having the minimal content of titanium being five times the carbon content, the ASTM A240 requires that the grade 316Ti must have an amount of titanium of at least five times the sum of carbon and nitrogen content.
For this reason, a 316Ti is always a 1.4571 but a 1.4571 is not necessarily a 316Ti according to ASTM, because the minimum chemical requirements are not sufficient.

Corrosion Properties of 1.4571 and 1.4404 Stainless Steel

The corrosion behaviour of the two grades 1.4571 and 1.4404 is in general very similar. Only a few substantial differences are to mention:

The titan-stabilized 1.4571 has a higher sensitivity for pitting corrosion.

Therefore, the same grade is less consistent against (chloride-induced) stress corrosion cracking.

The welded and titan-stabilized 1.4571 has a lower stability against intergranular corrosion

Towards other corrosion attacks, the two grades are almost identical in regard of their behaviour.

Processing Properties of 1.4571 and 1.4404 Stainless Steel

Depending on the application, the titanium influences the further processing of the material:

Machinability: Both grades, 1.4404 and 1.4571, are not typical stainless steel grades that are suitable for machining. For 1.4571, an additional negative aspect has to be mentioned: The carbides of the titanium are very hard and therefore cause higher tooling costs as well as slower machining speed.

Ability for mirror-polishing: Theoretically the carbides cause dark titanium cords which impair the mechanical surface refining.
However, due to modern melting technologies, the steel mills reduce the content of carbon as well as titanium and the carbides are less present. Like this, the finish is flawless after grinding and mirror polishing.

Level of purity: Per definition, the presence of titanium carbides reduces the purity of the material. With 1.4404, this is not the case, as there is no titanium.

Weldability: Both grades are equally weldable with similar procedures and adequate welding consumables. Same ease is also valid for laser welding.

Comparison Table of 1.4571 and 1.4404 Stainless Steel

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