The role of nickel and manganese in duplex steels

In this series of articles, the role of the elements nickel, manganese, chromium, molybdenum and nitrogen in the design of duplex stainless steels will be described. An optimum balance between austenite and ferrite is accomplished by a clever use of the alloying elements.

First of all, nickel, manganese and nitrogen are austenite stabilizers while chromium and molybdenum stabilize the ferritic phase. However, the fascinating interaction between these elements has also other consequences, which will be discussed in this and future columns. With a background in Swedish industry I feel called upon to mention that four of these elements were discovered by Swedish chemists during the 18th century. The only exception is chromium, which was discovered by the French chemist Vauquelin in Siberian red lead (in 1797).

The discovery of nickel

Figure 2: The nickel monument in the mining village Loos, Sweden, erected by INCO in 1974 in memory of the important discovery of nickel by the Swedish chemist Cronstedt in 1751. (Photo by the author)Figure 1. A piece of the mineral Annabergite on display at the museum of Loos in Sweden. The apple green substance is hydrous nickel arsenate, from which is assumed that Cronstedt isolated the new element nickel in 1751. (Photo by the author)In 1751 Axel Cronstedt found a mineral in the cobalt mine at Loos in Sweden which was assumed to contain copper because of the apple green color. The mineral was most likely Annabergite, which is an arsenate mineral and can be seen in the museum of Loos (Figure 1). Very disappointingly, no copper was found so it was called “Kupfernickel”, which is German for “false copper”. However, he suspected a new metallic element, which was confirmed in his experiments and the new element was later termed nickel.

A long time elapsed before nickel was used in engineering applications but today, nickel is an important alloying element and even provides the basis of industrial companies such as INCO, which erected a monument in Loos in 1974 (Figure 2). Spurred by the assistance of the great Swedish chemist Carl Wilhelm Scheele, Johann Gottlieb Gahn, a chemist at Bergskollegium in Falun, discovered the element manganese in the mineral pyrolusite (MnO2) in 1774. It so happens that there are some similarities between manganese and nickel. For instance, they are both austenite stabilizers.

Manganese as an austenite stabilizer

Because manganese is only about half as effective as nickel in this respect correspondingly more manganese is required to obtain the same effect. In the case of LDX 2101, 5% manganese is needed. The austenite stabilizing effect of manganese is further enhanced because it enables a higher solubility of nitrogen (0.22% in LDX 2101). However, in addition to stabilizing austenite, nickel has other beneficial effects that cannot be fully compensated by manganese.

Lean duplexes

When investigating a wide range of duplex steels, Wessman et al at the research institute KIMAB in Sweden found that a minimum amount of nickel was required to reach acceptable pitting corrosion resistance and toughness. Entirely nickel-free DSS were more susceptible to pitting than those containing nickel and also showed tendencies to cleavage fractures. At the present moment the price of nickel is slightly below USD 10,000/tonne. This implies that the economic incentive for developing lean DSS is less today than in 2008 when nickel prices exceeded USD 50,000/tonne. One lesson to be learned is that even if the price of nickel should start soaring again, we need a minimum amount of nickel to maintain sufficient corrosion resistance and appropriate mechanical properties. Both Cronstedt and Gahn would be pleased if they had known about the intricate interplay between nickel and manganese in duplex stainless steels and how we harvest the fruits of their discoveries in modern metallurgy!

This article was first published in Stainless Steel World Magazine in May 2016.

Jan-Olof Nilsson

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