XAR-400 3mm - 100mm plus (360 - 440 HB)

Enquire Now

This material specification applies to 3mm to 100mm thick plates of wear resistant special structural steel XAR®400.


The steel may be used at the discretion of the purchaser for wear-exposed structures, e.g. excavating, mining and earth-moving machinery, truck dump bodies, conveying, crushing and pulverizing equipment, scrap presses and paving moulds.

The processing and application techniques as a whole are of fundamental importance for the successful use of the products fabricated of this steel. The processor/fabricator must assure himself, that his design and work methods are appropriate for the material, are state-of-the-art and are suitable for the envisaged purpose.

The selection of the material is left up to the purchaser.

Chemical Composition (heat analysis, %)









≤0. 20

≤0. 80


≤0. 025

≤0. 010


≤0. 50

≤0. 005

The steel has a fine-grained microstructure. Nitrogen is absorbed to form nitrides by means of Al and, where applicable, Nb or Ti.

Delivery Condition: Quenched or quenched and tempered (see ‘Heat Treatment’).
Hardness at Room Temperature: In the delivery condition: 360-440 HB

The Brinell hardness shall be determined in accordance with ISO 6506.

Properties Typical of 15mm Plate Thickness
Carbon equivalent CET (%) [CET=C+(Mn+Mo) /10+(Cr+Cu)/20+Ni/40]: 0.27
Carbon equivalent CE (%) [CE=C+Mn/6+(Cr+Mo+V) /5+(Ni+Cu) /15]; 0.42

Yield strength (MPa) *)

Tensile strength (MPa) : 1250
Elongation at fracture A (%) : 12
Bend radius for bending test on transverse test pieces  
(t=test piece thickness; bend angle: 180°) ≥10xt
Notch-bar impact energy at -40°C  
on Charpy V-longitudinal test specimens (J) 30
 *) 1 MPa = 1 N/mm²  
Number of Tests

Unless otherwise agreed upon in the order, the Brinell hardness shall be determined from each heat. The hardness shall be measured roughly 1mm below the surface.

General Processing Information

Prior to any processing, it is advisable to make use of the information available from the steel producer in order to draw on that experience for the processing. The following information can deal with only a few essential points. The recommendations given in STAHL-EISEN-Werkstoffblatt 088 (Weldable fine-grained structural steels, guidelines for processing, in particular for welding) correspondingly apply to this steel as well.

Recommendations for welding are also given in EN 1011 part 1 and part 2 – Welding, Recommendation for welding of metallic materials-.

It is left to the discretion of the processor/fabricator to decide which of the familiar precautions must be adopted to avoid cracking during thermal cutting and welding under the prevailing construction and fabrication conditions.

Cold Forming

The products made of this steel are suitable for cold bending provided, that consideration is given to the high hardness. The formability of steel decreases with increasing hardness. This has to be kept in mind when forming. The forming must take place at a slow and steady rate, the cut edges must be deburred and the plates heated, if necessary, prior to forming. A final stress-relieving is not necessary for this steel.


In spite of its high wear resistance, the steel exhibits good machinability if sufficiently heavy machine-tools and sharp carbide-tipped tools are used. The feed rate and cutting speed have to be adjusted to the high hardness of the material.

Heat Treatment

Plates made of XAR®400 grade receive the required properties as a result of austenitizing and follow-on quenching in special facilities and, where applicable, tempering below Ac1. Direct quenching after hot-rolling is considered equivalent to conventional quenching. The heat treatment depends on the chemical composition and the product thickness. To avoid hardness losses, the steel must not be heated above 250°C.

Thermal Cutting

Preferably the flame-cutting process is used. For small product thicknesses, however, the plasma cutting process is used in the interest of minimum distortion.

Preheating is not normally necessary when flame-cutting thicknesses up to around 30mm. However, if the workpiece temperature is below +5°C, or the cut edges are to be cold-formed in the course of further processing, preheating to about 150°C should be considered in the interest of cold cracking resistance.


If due consideration is given to the general rules for welding, this steel is weldable both manually and automatically. To prevent cold cracking in the welded joints only welding consumables giving welds of very low hydrogen content should be used.

Preheating is not generally necessary for welding with austenitic filler metals.

Preheating may be necessary for welding with ferritic filler metals.

The preheat temperature level for welding depends on the plate thickness and the residual stress state of the structure. The working temperature should not go beyond 250°C.

The wear resistance of components fabricated of XAR®400 may be increased with the aid of wear resistant layers deposited by means if welding or metal spraying.

General Information

Unless otherwise agreed in the order, the delivery will be governed by the conditions outlined in EN 10021.

The admissible tolerances are based on EN 10051 for plates cut from hot strip and EN 10029 for four-high mill plates, unless other terms have been agreed upon.

The plates will be supplied with a maximum flatness tolerance according to EN 10029, table 4, steel type H.

Smaller flatness tolerances can be agreed upon at the time of ordering.

For surface quality requirements EN 10163 is applicable.

As per special agreement it is possible to supply plates descaled or descaled and prime



Mr. Vikas Jain

390/392, Shankar mansion, vanita Vishram Chowk, S. V. P.

Road Mumbai - 400 004, Maharashtra, India

+91 - +91-22-66159019/ 66159001


Copyright © Champak Industries, Mumbai. All Rights Reserved