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A Brief Discussion on Ammunitions and Armours

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Sunirmal Karmakar

The document summarizes information presented in a seminar on ammunitions and armors. It discusses various types of threats, ammunition like guns, rifles and bullets. It also describes terminal ballistics and how targets can fail when impacted. The document outlines different types of armors like metallic, fibrous, layered and ceramic armors. It discusses their advantages and disadvantages. Biomimetic armors inspired by nature are also mentioned.

Engineering
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September 2021 Faculty – in- charge : Dr. Debasish Sarkar Head of the Department Department Of Ceramic Engineering National Institute of Technology Rourkela A Brief Discussion on Ammunitions and Armours Seminar and Technical Writing Presented By: SUNIRMAL KARMAKAR Roll No.: 519CR6008
• Introduction • Threats • Ammunitions • Guns and Rifles • Bullet and its Types • Comparison of Kinetic Energy of projectiles • Terminal Ballistics • Failure of target • Armours • Subcategories of Armours • Metallic Armour • Fibrous Armour • Layered Armours • Ceramic Armours • Biomimetic Armours • Advantages and Disadvantages of armours • Reference CONTENTS
• Every being present in the nature, has been condition to attack or defense while a threat or danger is felt around. • Due to the global crisis running in today’s world, military and law enforcement department of every nation has been awakened since world war 1 to till date. • The strength of the nation is partially determined by the strength of military forces that has been accompanied for the security and defense. • Every military has been equipped with : • Ammunition for attacks (guns, rifles, knives, explosives) • Armour for defense. ( shields, vest) • Wars and battle events have been witnessed from histories. Starting from bow and arrow to snipper rifles till dated. • But in 1968, standardization of ammunition and armours has been developed by NIJ (National institute of Justice) Washington, USA . INTRODUCTION
INTRODUCTION Contd. Evolution of armours during the middle ages Full body armour of European soldier in 1816 Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Internet
• Threats in the modern world are defined as the types of attacks that posses the potential of causing lethal damage. • Over the due course of time, threats have been classified in different types • Mechanical threat. • Technological/Cyber threat. • Bio-medical threat. • Mechanical threat causes the highest level damage on a physical regimes. It encounters the loss of lives on a massive account. It involves sharp objects like military service knives, handguns, explosives, assault rifles etc. • For development of protection against threats, qualitative anticipation of potential threats and its limit of damage has to be acknowledged and investigated. Spontaneous evolution of armours is necessary due to continuous evolution of threats. • Threats are basically of 2 types • Short range combat, (range of combat is within the arm span) • Long Range combat THREATS
• Under mechanical threats, ammunitions (attack weapons) • Spike and stab Attacks • Long range attacks. • Ground implants and explosives. • Spike and stab attacks: Attacks carried out with the help of knives blade • Stabbing – When travel of knife blade in the target is perpendicular to the target surface • Slashing- when the cutting edge of weapon travels parallel to the target surface. • Long range attacks : Origin of attack is distant far from the target. • Small armed guns, (effective less than 40m) • Rifles (range up to 350-550m) • Snipper rifle (range till 2300m) • Ground implants and explosives: Attacks made due to creation of shock wave causing a ripple effect on the surrounding. This ripple effect caused due to shock caused pressure and results to destruction AMMUNITIONS
GUNS AND RIFLES HAND-GUNS Service Pistol – range-15m G-Lock 17 – range- 20m Pistol Auto – 9mm (A) ASSAULT RIFLES SNIPER RIFLES ASMI RIFLE FN-SCAR (L) – 5.56 caliber Heckler & Koch HK416 – 5.56 caliber AK-103 ; 5.56 caliber Barrett M82 – 12.7mm caliber Arctic Welfare Magnum– 7.62mm caliber M24– 7.62mm caliber ASMI – 9mm pistol Recently developed India’s next generation pistol developed by DRDO, ARDE, Indian infantry school using 3D printing technique. Range is 100-110m. Internet Ministry of defense India
• Bullet has following parts • Case • Propellant • Rim • Primer • Head / Core • Bullet are divided in 2 categories. • Lead core Bullets. • Hardened steel core bullet • Wood core bullet • Depending on the shape of bullet • Round head bullet • Flat head bullet • Cone head bullet • Depending on caliber • 5.56mm • 7.62mm • 14.5mm • 15.1mm BULLETS and IT’s TYPES Different shapes of bullets Pictorial view of cored bullets Parts of bullets Velocity of different caliber bullets Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Jacobs, M. J. N., and J. L. J. Van Dingenen. Journal of materials science 36.13 (2001): 3137-3142.
Comparison of KE of projectile. Energy exerted on muzzle by the bullet (maximum energy exerted is by 0.45 Cp caliber handgun bullet and minimum is 7.62 mm caliber bullet) Kinetic Energy exerted on target by the bullet (maximum energy exerted is by 0.50 BMG of 19KJ and minimum is 0.38mm caliber hand gun bullet300-400J)
Terminal Ballistics Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. The interaction of journey of bullet from the origin to the target till penetration consist of 3 interaction • Internal Ballistic: Deals with the initial energy required for optimized trajectory of the bullet • External Ballistics: Deals with parameters affecting the bullet during projectile. • Terminal Ballistics: Deals with the interaction of bullet and the target surface. Terminal Ballistics: When bullet impacts the target surface, a sudden movement of armour creates waves. This wave contains 3 nature • Elastic waves: these wave travel through the armour material and reflects back in the form of tensile waves. • Plastic waves : These wave cause micro cracks and ruptures in the material. • Shock waves: This causes the material to suddenly deform causing it to shatter and fail.
• Ductile hole formation : When the target material is ductile in nature, the bullet penetrated in the target exert radial tensile stress. This causes cylindrical perforation (hole formation) in the material causing the material to fail. • Plugging : this is a phenomenon of failure when bullet having a fat head/blunt projectile penetrates and dislocates the portion of target material. The dislocated material interacts a shear force with its parent material. It is differentiated into hard plugging and soft plugging. • Delamination: this phenomenon usually occurs in highly orthotropic multilayered laminated structures materials where the two energy absorbing process is inter-laminar membrane stretching and intra laminar fracture due to shear. Failure of target Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Delamination Ductile hole formation Plugging
• Discing :This involves the spalling out of rear face of the target material due to high velocity impact from solid projectile. • Conoidal fracture and Comunition : When a blunt projectile hit hard and brittle target, cracks are formed in conical pattern from striking face to the rear face and forms accumulation of materials on the immediate surface of the target. Failure of target contd. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Discing Conoidal fracture and Comunition
• Since the era of World War 1 , the huge loss of lives have concerned science about developing material which can be hard enough to sustain high velocity impact. This lead to the use of steel armours which was efficient to resist impacts was hard enough to constrain the mobility of the soldier. • Development of armour is carried out by acknowledging all the threat possible. • Armour are the defensive mechanism to the possible potential threat that might occur to be lethal. • The main function od armour is to have high energy absorbing capabilities and diffuse it so the bullet don’t penetrate in the target. • Armours are differentiated on the basis of use • General armour • Ballistic armour • Knives and stab resisting armour. • The two main segments in modern armour are • Hard armour • Soft armour ARMOURS Cross-section of armour Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
Sub-categories of Armours Armour Materials Metallic Armour Ceramic Armour Fibrous Armour Integral and Laminated Composite Armour Biomimetic Armour Armour Steel Carbides, Oxides Kevlar
• Development of metallic armour have been since 1915 from steel to UHHS (ultra-high hardness steel), metal alloys etc. • Armour having striking plate and backing plate as metals are called metallic armour. • High hardness steel posses very high hardness but likely to shatter after fracture. • Drawbacks of these metal armours are they are heavy weighted. • Different alloys used for armour purpose • Austenitic steel alloy • Martensitic steel alloy (one of the hardest form of steel) • Titanium alloy • Failure mode of metallic armour. • Adiabatic shear failure • Brittle failure • Structural engineering failure • Ductile hole formation • Plugging Metallic Armour A schematic illustration of the general relationship between target hardness and ballistic performance for the family of armour steels. Performance is very much related to the failure mode(s) which are operative within a particular hardness range. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
• Fibers has been conspicuous method of shielding against heat, cold and other environmental conditions. • Over time, various other materials, including fiber glass, polyester, rayon, silk, acetate yarn and isotactic polypropylene, have been developed and explored for ballistic protection applications, but none of them have accorded satisfactory results. • In 1965, DuPont came up with Kevlar, Twaron, Spectra etc. setting a bench mark for fibrous armour system. • Amarids and polyamarids show unique combination of high tensile strength , low elongation to break, low chemical resistance, high toughness, low thermal shrinkage and excellent dimension stability. • Factors affecting the failure of fibrous armours systems. • Weaving pattern • Weaving index • Traction between bullet surface and fibers • Order of cluster of fibers • Effect of weaving pattern • 3D non interlaced fabrics • Multi-stitched 3D woven fabrics • 3D fully interlaced fabrics Fibrous Armour Schematics of bullet penetration in fibrous material Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
• Evidences state that hand gun bullets of(0.45mm caliber) could not penetrate a hardcover book. • One of most effective material for armour purpose is multiple layer material. • It resists plugging of material. Basic mode of failure response is de lamination. • Lamination of different materials having different magnitude of hardness and toughness gives rise to higher cumulative strength and toughness to the armour specimen. • Interfacial strength between two layers helps in diffusing impact energy in the material. Layered Armour Failure due to plugging restricted in layered materials Delamination in layered armour materials Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
• Glass and ceramics have being playing an important role in the field of armour/ shielding/ protection. • Ceramics usually have low toughness of about 3-7 MPa m0.5 where as most armour materials have a toughness of 20 MPa m0.5 or above. • Ceramics armours have reported to posses elastic modulus of 300 GPa and flexural strength of 350 MPa. • Ceramics like Al2O3 alumina, zirconia, SiC, B4C, AlON have been used for making armour materials using hot pressing, sintering, spark plasma sintering etc. • The most recent development of BHABA KAVACH by BARC and DRDO funded by DAE was most favorable example for low weight ceramic armour. It could resist bullets of SLR and AK-47. The weight of the BHABA KAVACH is approximately 9kgs which is almost 65% reduction in weight of metallic armours. • Use of ceramics makes the armour light weighted and easier to carry while in operation. Ceramic Armour Bhaba Kavach (Source- BARC) Mitra, Sanjay, and Laxman Kumar Behera. "Enhancing the Effectiveness of Defence Indigenization: The Case of Bullet-Resistant Jackets." Strategic Analysis 44.6 (2020): 553-569
Process Ceramics Backing plate Type of projectile Pressure less sintering technique Alumina Al2O3 & AlN Al-5803 wrought alloy 7.62 Dragunov Rifle (840 m/s) Spark Plasma Sintering B4C, SiC – 5 wt% B4C, SiC – 2.5 wt% AlN – 3 wt% C --------- 7.62 X 54 B32 API Mk2 (616–883 m/s) Hot pressing Ti3SiC2 Aluminum 9 X 19mm Parabellum type (TC 95) Sintering 10% zirconia toughening alumina & 95% alumina ceramic Medium Steel Tungsten long-rod projectile Pressure infiltration method B4C/2024 Al, with 55% volume fraction of B4C -------- 7.62 X 51mm Armour- piercing bullet Plasma spray technique Al 2024-T351, Al 6061-T651, Al 7075-T651; Coated with Co – Mo– Cr and ZrO2 -------- 9 X19 mm Parabellum bullet (370 m/sec) Cold pressed method Al 2 O 3 ceramic powder Polycarbonate & Al6082-T651 22 mm bore 2 m barrel single stage gas gun (375m/sec) and modified FFV core bullet (approx. 900 m/sec) Ceramic Armour Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174.
• From last decade, nature inspired materials have synergetic mechanical properties have been fascinating to look onto. • Hard materials like tooth, skin of alligator , nacre, bark of tree etc. has inspired to develop easy repairing armours. • It has also increased the life span of armours . • The drawback of such materials is the expensive processing and fabrication, as the natural arrangement id much complicated. • One of the most fascinating innovative approach in recent times is the DRAGON SKIN armour developed by US Defense. Earlier the armour vest comprised of one single strike face, but for dragon skin this strike face is made into small circular disc arranged in the form of fish scales. • Advantage of the dragon skin is , fracture occurs locally and can be easily replace while in service and operation. Biomimetic Armour Dragon Skin Armour X Ray of Dragon Skin Armour Local fracture of Armour
Pro’s and Con’s of Armours ARMOUR TYPE ADVANTAGES DISADVANTAGES Metallic Armour • Easy processing; • Various range of size; • Protection against wide range of projectile • High density • High weight • Steels not involved in armour materials Ceramic Armour • Low weight • Low density • High Compressive strength. • Best for lower ranged ballistic test • Catastrophic failure • Highly brittle • Protection against limited threats. • Defects / Wear ability Integral and Laminated Armour • Possibility of incorporation of various materials • High ballistic test • High ballistic efficacy • Effective to high energy projectile(s) • Delamination of integrated materials. • Matrix cracking and deboning • Laminar separation Fibrous Armour • Low weight • Low density • Wearability • Multiple ply systems • Faster heat dissipation • Aging and degradation • Local melting and comunition of fibers • Reduced ballistic efficacy. Biomimetic Armour • Higher impact resistant • Withstand multiple hit • Faster heat dissipation • Wide range of crack arresting mechanisms • Challenge in processing • Not complete replica of natural materials • Not applied to local use till date • Huge challenge in Commercialization and large scale production Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174.
• Brief discussion on the possible threat and its types were carried out. • Quantifying the threat and failures of target have been illustrated here. • Development of armours and its types have been briefly explained • Advantages and disadvantages of different armours have been discussed. • Recent development in the field of defense in India ( ASMI Pistol; Bhaba Kavach) and USA ( Dragon Skin) have been shown as an explanatory statement. CONCLUSION
1. Yadav, Ramdayal, et al. "Body armour materials: from steel to contemporary biomimetic systems." RSC advances 6.116 (2016): 115145-115174. 2. Bhat, T. Balakrishna. "Science of armour materials." Def. Sci. J 35.2 (1985): 219-223. 3. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. 4. Crouch, Ian G. "Body armour–New materials, new systems." Defence Technology 15.3 (2019): 241-253. 5. Mawkhlieng, Unsanhame, Abhijit Majumdar, and Animesh Laha. "A review of fibrous materials for soft body armour applications." RSC Advances 10.2 (2020): 1066-1086. 6. Bruet, Benjamin JF, et al. "Materials design principles of ancient fish armour." Nature materials 7.9 (2008): 748-756. 7. Hainsworth, S. V., R. J. Delaney, and G. N. Rutty. "How sharp is sharp? Towards quantification of the sharpness and penetration ability of kitchen knives used in stabbings." International journal of legal medicine 122.4 (2008): 281-291. 8. Crouch, I. G. "Discing failures in both traditional and composite armour materials." International Symposium on Ballistics, Stockholm. 1992. 9. Crouch, I. G., and B. Eu. "Ballistic testing methodologies." The Science of Armour Materials. Woodhead Publishing, 2017. 639- 673. 10. Børvik, T., S. Dey, and A. H. Clausen. "Perforation resistance of five different high-strength steel plates subjected to small-arms projectiles." International Journal of Impact Engineering 36.7 (2009): 948-964. 11. Mitra, Sanjay, and Laxman Kumar Behera. "Enhancing the Effectiveness of Defence Indigenization: The Case of Bullet- Resistant Jackets." Strategic Analysis 44.6 (2020): 553-569. 12. Jacobs, M. J. N., and J. L. J. Van Dingenen. "Ballistic protection mechanisms in personal armour." Journal of materials science 36.13 (2001): 3137-3142. Reference
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A Brief Discussion on Ammunitions and Armours

  • 1. September 2021 Faculty – in- charge : Dr. Debasish Sarkar Head of the Department Department Of Ceramic Engineering National Institute of Technology Rourkela A Brief Discussion on Ammunitions and Armours Seminar and Technical Writing Presented By: SUNIRMAL KARMAKAR Roll No.: 519CR6008
  • 2. • Introduction • Threats • Ammunitions • Guns and Rifles • Bullet and its Types • Comparison of Kinetic Energy of projectiles • Terminal Ballistics • Failure of target • Armours • Subcategories of Armours • Metallic Armour • Fibrous Armour • Layered Armours • Ceramic Armours • Biomimetic Armours • Advantages and Disadvantages of armours • Reference CONTENTS
  • 3. • Every being present in the nature, has been condition to attack or defense while a threat or danger is felt around. • Due to the global crisis running in today’s world, military and law enforcement department of every nation has been awakened since world war 1 to till date. • The strength of the nation is partially determined by the strength of military forces that has been accompanied for the security and defense. • Every military has been equipped with : • Ammunition for attacks (guns, rifles, knives, explosives) • Armour for defense. ( shields, vest) • Wars and battle events have been witnessed from histories. Starting from bow and arrow to snipper rifles till dated. • But in 1968, standardization of ammunition and armours has been developed by NIJ (National institute of Justice) Washington, USA . INTRODUCTION
  • 4. INTRODUCTION Contd. Evolution of armours during the middle ages Full body armour of European soldier in 1816 Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Internet
  • 5. • Threats in the modern world are defined as the types of attacks that posses the potential of causing lethal damage. • Over the due course of time, threats have been classified in different types • Mechanical threat. • Technological/Cyber threat. • Bio-medical threat. • Mechanical threat causes the highest level damage on a physical regimes. It encounters the loss of lives on a massive account. It involves sharp objects like military service knives, handguns, explosives, assault rifles etc. • For development of protection against threats, qualitative anticipation of potential threats and its limit of damage has to be acknowledged and investigated. Spontaneous evolution of armours is necessary due to continuous evolution of threats. • Threats are basically of 2 types • Short range combat, (range of combat is within the arm span) • Long Range combat THREATS
  • 6. • Under mechanical threats, ammunitions (attack weapons) • Spike and stab Attacks • Long range attacks. • Ground implants and explosives. • Spike and stab attacks: Attacks carried out with the help of knives blade • Stabbing – When travel of knife blade in the target is perpendicular to the target surface • Slashing- when the cutting edge of weapon travels parallel to the target surface. • Long range attacks : Origin of attack is distant far from the target. • Small armed guns, (effective less than 40m) • Rifles (range up to 350-550m) • Snipper rifle (range till 2300m) • Ground implants and explosives: Attacks made due to creation of shock wave causing a ripple effect on the surrounding. This ripple effect caused due to shock caused pressure and results to destruction AMMUNITIONS
  • 7. GUNS AND RIFLES HAND-GUNS Service Pistol – range-15m G-Lock 17 – range- 20m Pistol Auto – 9mm (A) ASSAULT RIFLES SNIPER RIFLES ASMI RIFLE FN-SCAR (L) – 5.56 caliber Heckler & Koch HK416 – 5.56 caliber AK-103 ; 5.56 caliber Barrett M82 – 12.7mm caliber Arctic Welfare Magnum– 7.62mm caliber M24– 7.62mm caliber ASMI – 9mm pistol Recently developed India’s next generation pistol developed by DRDO, ARDE, Indian infantry school using 3D printing technique. Range is 100-110m. Internet Ministry of defense India
  • 8. • Bullet has following parts • Case • Propellant • Rim • Primer • Head / Core • Bullet are divided in 2 categories. • Lead core Bullets. • Hardened steel core bullet • Wood core bullet • Depending on the shape of bullet • Round head bullet • Flat head bullet • Cone head bullet • Depending on caliber • 5.56mm • 7.62mm • 14.5mm • 15.1mm BULLETS and IT’s TYPES Different shapes of bullets Pictorial view of cored bullets Parts of bullets Velocity of different caliber bullets Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Jacobs, M. J. N., and J. L. J. Van Dingenen. Journal of materials science 36.13 (2001): 3137-3142.
  • 9. Comparison of KE of projectile. Energy exerted on muzzle by the bullet (maximum energy exerted is by 0.45 Cp caliber handgun bullet and minimum is 7.62 mm caliber bullet) Kinetic Energy exerted on target by the bullet (maximum energy exerted is by 0.50 BMG of 19KJ and minimum is 0.38mm caliber hand gun bullet300-400J)
  • 10. Terminal Ballistics Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. The interaction of journey of bullet from the origin to the target till penetration consist of 3 interaction • Internal Ballistic: Deals with the initial energy required for optimized trajectory of the bullet • External Ballistics: Deals with parameters affecting the bullet during projectile. • Terminal Ballistics: Deals with the interaction of bullet and the target surface. Terminal Ballistics: When bullet impacts the target surface, a sudden movement of armour creates waves. This wave contains 3 nature • Elastic waves: these wave travel through the armour material and reflects back in the form of tensile waves. • Plastic waves : These wave cause micro cracks and ruptures in the material. • Shock waves: This causes the material to suddenly deform causing it to shatter and fail.
  • 11. • Ductile hole formation : When the target material is ductile in nature, the bullet penetrated in the target exert radial tensile stress. This causes cylindrical perforation (hole formation) in the material causing the material to fail. • Plugging : this is a phenomenon of failure when bullet having a fat head/blunt projectile penetrates and dislocates the portion of target material. The dislocated material interacts a shear force with its parent material. It is differentiated into hard plugging and soft plugging. • Delamination: this phenomenon usually occurs in highly orthotropic multilayered laminated structures materials where the two energy absorbing process is inter-laminar membrane stretching and intra laminar fracture due to shear. Failure of target Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174. Delamination Ductile hole formation Plugging
  • 12. • Discing :This involves the spalling out of rear face of the target material due to high velocity impact from solid projectile. • Conoidal fracture and Comunition : When a blunt projectile hit hard and brittle target, cracks are formed in conical pattern from striking face to the rear face and forms accumulation of materials on the immediate surface of the target. Failure of target contd. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. Discing Conoidal fracture and Comunition
  • 13. • Since the era of World War 1 , the huge loss of lives have concerned science about developing material which can be hard enough to sustain high velocity impact. This lead to the use of steel armours which was efficient to resist impacts was hard enough to constrain the mobility of the soldier. • Development of armour is carried out by acknowledging all the threat possible. • Armour are the defensive mechanism to the possible potential threat that might occur to be lethal. • The main function od armour is to have high energy absorbing capabilities and diffuse it so the bullet don’t penetrate in the target. • Armours are differentiated on the basis of use • General armour • Ballistic armour • Knives and stab resisting armour. • The two main segments in modern armour are • Hard armour • Soft armour ARMOURS Cross-section of armour Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
  • 14. Sub-categories of Armours Armour Materials Metallic Armour Ceramic Armour Fibrous Armour Integral and Laminated Composite Armour Biomimetic Armour Armour Steel Carbides, Oxides Kevlar
  • 15. • Development of metallic armour have been since 1915 from steel to UHHS (ultra-high hardness steel), metal alloys etc. • Armour having striking plate and backing plate as metals are called metallic armour. • High hardness steel posses very high hardness but likely to shatter after fracture. • Drawbacks of these metal armours are they are heavy weighted. • Different alloys used for armour purpose • Austenitic steel alloy • Martensitic steel alloy (one of the hardest form of steel) • Titanium alloy • Failure mode of metallic armour. • Adiabatic shear failure • Brittle failure • Structural engineering failure • Ductile hole formation • Plugging Metallic Armour A schematic illustration of the general relationship between target hardness and ballistic performance for the family of armour steels. Performance is very much related to the failure mode(s) which are operative within a particular hardness range. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
  • 16. • Fibers has been conspicuous method of shielding against heat, cold and other environmental conditions. • Over time, various other materials, including fiber glass, polyester, rayon, silk, acetate yarn and isotactic polypropylene, have been developed and explored for ballistic protection applications, but none of them have accorded satisfactory results. • In 1965, DuPont came up with Kevlar, Twaron, Spectra etc. setting a bench mark for fibrous armour system. • Amarids and polyamarids show unique combination of high tensile strength , low elongation to break, low chemical resistance, high toughness, low thermal shrinkage and excellent dimension stability. • Factors affecting the failure of fibrous armours systems. • Weaving pattern • Weaving index • Traction between bullet surface and fibers • Order of cluster of fibers • Effect of weaving pattern • 3D non interlaced fabrics • Multi-stitched 3D woven fabrics • 3D fully interlaced fabrics Fibrous Armour Schematics of bullet penetration in fibrous material Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
  • 17. • Evidences state that hand gun bullets of(0.45mm caliber) could not penetrate a hardcover book. • One of most effective material for armour purpose is multiple layer material. • It resists plugging of material. Basic mode of failure response is de lamination. • Lamination of different materials having different magnitude of hardness and toughness gives rise to higher cumulative strength and toughness to the armour specimen. • Interfacial strength between two layers helps in diffusing impact energy in the material. Layered Armour Failure due to plugging restricted in layered materials Delamination in layered armour materials Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016.
  • 18. • Glass and ceramics have being playing an important role in the field of armour/ shielding/ protection. • Ceramics usually have low toughness of about 3-7 MPa m0.5 where as most armour materials have a toughness of 20 MPa m0.5 or above. • Ceramics armours have reported to posses elastic modulus of 300 GPa and flexural strength of 350 MPa. • Ceramics like Al2O3 alumina, zirconia, SiC, B4C, AlON have been used for making armour materials using hot pressing, sintering, spark plasma sintering etc. • The most recent development of BHABA KAVACH by BARC and DRDO funded by DAE was most favorable example for low weight ceramic armour. It could resist bullets of SLR and AK-47. The weight of the BHABA KAVACH is approximately 9kgs which is almost 65% reduction in weight of metallic armours. • Use of ceramics makes the armour light weighted and easier to carry while in operation. Ceramic Armour Bhaba Kavach (Source- BARC) Mitra, Sanjay, and Laxman Kumar Behera. "Enhancing the Effectiveness of Defence Indigenization: The Case of Bullet-Resistant Jackets." Strategic Analysis 44.6 (2020): 553-569
  • 19. Process Ceramics Backing plate Type of projectile Pressure less sintering technique Alumina Al2O3 & AlN Al-5803 wrought alloy 7.62 Dragunov Rifle (840 m/s) Spark Plasma Sintering B4C, SiC – 5 wt% B4C, SiC – 2.5 wt% AlN – 3 wt% C --------- 7.62 X 54 B32 API Mk2 (616–883 m/s) Hot pressing Ti3SiC2 Aluminum 9 X 19mm Parabellum type (TC 95) Sintering 10% zirconia toughening alumina & 95% alumina ceramic Medium Steel Tungsten long-rod projectile Pressure infiltration method B4C/2024 Al, with 55% volume fraction of B4C -------- 7.62 X 51mm Armour- piercing bullet Plasma spray technique Al 2024-T351, Al 6061-T651, Al 7075-T651; Coated with Co – Mo– Cr and ZrO2 -------- 9 X19 mm Parabellum bullet (370 m/sec) Cold pressed method Al 2 O 3 ceramic powder Polycarbonate & Al6082-T651 22 mm bore 2 m barrel single stage gas gun (375m/sec) and modified FFV core bullet (approx. 900 m/sec) Ceramic Armour Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174.
  • 20. • From last decade, nature inspired materials have synergetic mechanical properties have been fascinating to look onto. • Hard materials like tooth, skin of alligator , nacre, bark of tree etc. has inspired to develop easy repairing armours. • It has also increased the life span of armours . • The drawback of such materials is the expensive processing and fabrication, as the natural arrangement id much complicated. • One of the most fascinating innovative approach in recent times is the DRAGON SKIN armour developed by US Defense. Earlier the armour vest comprised of one single strike face, but for dragon skin this strike face is made into small circular disc arranged in the form of fish scales. • Advantage of the dragon skin is , fracture occurs locally and can be easily replace while in service and operation. Biomimetic Armour Dragon Skin Armour X Ray of Dragon Skin Armour Local fracture of Armour
  • 21. Pro’s and Con’s of Armours ARMOUR TYPE ADVANTAGES DISADVANTAGES Metallic Armour • Easy processing; • Various range of size; • Protection against wide range of projectile • High density • High weight • Steels not involved in armour materials Ceramic Armour • Low weight • Low density • High Compressive strength. • Best for lower ranged ballistic test • Catastrophic failure • Highly brittle • Protection against limited threats. • Defects / Wear ability Integral and Laminated Armour • Possibility of incorporation of various materials • High ballistic test • High ballistic efficacy • Effective to high energy projectile(s) • Delamination of integrated materials. • Matrix cracking and deboning • Laminar separation Fibrous Armour • Low weight • Low density • Wearability • Multiple ply systems • Faster heat dissipation • Aging and degradation • Local melting and comunition of fibers • Reduced ballistic efficacy. Biomimetic Armour • Higher impact resistant • Withstand multiple hit • Faster heat dissipation • Wide range of crack arresting mechanisms • Challenge in processing • Not complete replica of natural materials • Not applied to local use till date • Huge challenge in Commercialization and large scale production Yadav, Ramdayal, et al. RSC advances 6.116 (2016): 115145-115174.
  • 22. • Brief discussion on the possible threat and its types were carried out. • Quantifying the threat and failures of target have been illustrated here. • Development of armours and its types have been briefly explained • Advantages and disadvantages of different armours have been discussed. • Recent development in the field of defense in India ( ASMI Pistol; Bhaba Kavach) and USA ( Dragon Skin) have been shown as an explanatory statement. CONCLUSION
  • 23. 1. Yadav, Ramdayal, et al. "Body armour materials: from steel to contemporary biomimetic systems." RSC advances 6.116 (2016): 115145-115174. 2. Bhat, T. Balakrishna. "Science of armour materials." Def. Sci. J 35.2 (1985): 219-223. 3. Crouch, Ian, ed. The science of armour materials. Woodhead Publishing, 2016. 4. Crouch, Ian G. "Body armour–New materials, new systems." Defence Technology 15.3 (2019): 241-253. 5. Mawkhlieng, Unsanhame, Abhijit Majumdar, and Animesh Laha. "A review of fibrous materials for soft body armour applications." RSC Advances 10.2 (2020): 1066-1086. 6. Bruet, Benjamin JF, et al. "Materials design principles of ancient fish armour." Nature materials 7.9 (2008): 748-756. 7. Hainsworth, S. V., R. J. Delaney, and G. N. Rutty. "How sharp is sharp? Towards quantification of the sharpness and penetration ability of kitchen knives used in stabbings." International journal of legal medicine 122.4 (2008): 281-291. 8. Crouch, I. G. "Discing failures in both traditional and composite armour materials." International Symposium on Ballistics, Stockholm. 1992. 9. Crouch, I. G., and B. Eu. "Ballistic testing methodologies." The Science of Armour Materials. Woodhead Publishing, 2017. 639- 673. 10. Børvik, T., S. Dey, and A. H. Clausen. "Perforation resistance of five different high-strength steel plates subjected to small-arms projectiles." International Journal of Impact Engineering 36.7 (2009): 948-964. 11. Mitra, Sanjay, and Laxman Kumar Behera. "Enhancing the Effectiveness of Defence Indigenization: The Case of Bullet- Resistant Jackets." Strategic Analysis 44.6 (2020): 553-569. 12. Jacobs, M. J. N., and J. L. J. Van Dingenen. "Ballistic protection mechanisms in personal armour." Journal of materials science 36.13 (2001): 3137-3142. Reference