The design of advanced performance high strength low-carbon martensitic armour steels

Maweja, Kasonde; Stumpf, Waldo E.

doi:10.1016/j.msea.2007.08.048

Cited by 31 publications

(17 citation statements)

References 23 publications

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“…X-ray diffraction in an X'Pert PRO PANalytical equipment was used to determine the phases present (particularly the % retained austenite) in the steels and their lattice parameters. The results of the above analyses were finally correlated to the ballistic performances reported in [6,21].…”

Section: Steelmentioning

confidence: 99%

“…three commercial armour steels were reported in [6,21]. Table 5 extracted from the ballistic report [6] is quoted here.…”

Section: Ballistic Performancementioning

confidence: 99%

“…three commercial armour steels were reported in [6,21]. Table 5 extracted from the ballistic report [6] is quoted here. It appears from the ballistic report that the plate martensite microstructures formed at lower M s temperatures offered the best performance against ballistic impact.…”

Section: Ballistic Performancementioning

confidence: 99%

“…It was found that high hardness or high mechanical properties were not reliable factors in predicting their ballistic performance [3][4][5][6]. A morphological/microstructural approach is hence rendered necessary to enable the prediction of the ballistic performance and to reduce the design duration and cost of developing new armour steels.…”

Section: Introductionmentioning

confidence: 99%

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Characteristics of martensite as a function of the Ms temperature in low-carbon armour steel plates

Maweja

Stumpf

Berg

2009

Materials Science and Engineering: A

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a b s t r a c tThe microstructure, morphology, crystal structure and surface relief of martensite in a number of experimental armour steel plates with different M s temperatures were analysed. Atomic force microscopy, thin foil transmission electron microscopy and scanning electron microscopy allowed the identification of three groups of low-carbon martensitic armour steels. The investigation showed that the size of individual martensite products (plates or packets, laths or blocks) increases as the M s temperature increases.Comparison of ballistic performances suggests that the morphology (plate or lath) and size of the individual martensite products dictate the effective "grain size" in resisting fracture or perforation due to ballistic impact.

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Section: Steelmentioning

confidence: 99%

“…three commercial armour steels were reported in [6,21]. Table 5 extracted from the ballistic report [6] is quoted here.…”

Section: Ballistic Performancementioning

confidence: 99%

Section: Ballistic Performancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characteristics of martensite as a function of the Ms temperature in low-carbon armour steel plates

Maweja

Stumpf

Berg

2009

Materials Science and Engineering: A

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“…Hardness is an indicator of tensile strength and as extensive analytical work [2][3][4][5] relies almost entirely on the tensile strength of the material, the use of material hardness as a ballistic performance indicator is entirely valid in certain cases. Recent work [6] indicates, however that material hardness alone might not be the only required mechanical property for optimal ballistic performance. The development of Dual-Phase, TRIP and especially TWIP alloys [7] (with tensile strength of ≈1700MPa at 45% strain), indicates that enhanced plastic energy absorption could be attained with higher work-hardening rates.…”

Section: Introductionmentioning

confidence: 99%

Material characterization of a novel new armour steel

Bester

Stumpf

2012

EPJ Web of Conferences

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Abstract. The material characterization of a novel new armour steel with comparison to a leading commercial benchmark alloy is presented. Direct ballistic and experimental comparison is drawn. The 5.56 × 45 mm [M193] and 7.62 × 51 mm [NATO Ball] projectiles were used in a cartridge type high pressure barrel configuration to evaluate the superior plugging resistance of the new steel over a range of plate thicknesses. To characterize the dynamic plasticity of the materials, quasi-static, notched and high temperature tensile tests as well as Split Hopkinson Pressure Bar tests in tension and compression were performed. The open source explicit solver, IMPACT (sourceforge.net) is used in an ongoing numerical and sensitivity analysis of ballistic impact. A simultaneous multi variable fitting algorithm is planned to evaluate several selected numerical material models and show their relative correlation to experimental data. This study as well as micro-metallurgical investigation of adiabatic shear bands and localized deformation zones should result in new insights in to the underlying metallurgical and physical behavior of armour plate steels during ballistic perforation.

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Plasticity and Ballistic Characterization of a New Armour Steel

Bester

Stumpf

2012

Dynamic Behavior of Materials, Volume 1

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The design of advanced performance high strength low-carbon martensitic armour steels

Cited by 31 publications

References 23 publications

Characteristics of martensite as a function of the Ms temperature in low-carbon armour steel plates

Characteristics of martensite as a function of the Ms temperature in low-carbon armour steel plates

Material characterization of a novel new armour steel

Plasticity and Ballistic Characterization of a New Armour Steel

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