DOCSLIB.ORG

Helmet from Wikipedia, the Free Encyclopedia for Other Uses, See Helmet (Disambiguation)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Helmet from Wikipedia, the Free Encyclopedia for Other Uses, See Helmet (Disambiguation) Helmet From Wikipedia, the free encyclopedia For other uses, see Helmet (disambiguation). This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (December 2012) A woman wearing a bicycling helmet A helmet is a form of protective gear worn to protect the head from injuries. Ceremonial or symbolic helmets (e.g., UK policeman's helmet) without protective function are sometimes used. The oldest known use of helmets was by Assyrian soldiers in 900BC, who wore thick leather or bronze helmets to protect the head from blunt object and swordblows and arrow strikes in combat. Soldiers still wear helmets, now often made from lightweight plastic materials. In civilian life, helmets are used for recreational activities and sports (e.g., jockeys in horse racing, American football, ice hockey, cricket,baseball, and rock climbing); dangerous work activities (e.g., construction, mining, riot police); and transportation (e.g., Motorcycle helmetsand bicycle helmets). Since the 1990s, most helmets are made from resin or plastic, which may be reinforced with fibers such as aramids. The word helmet is diminutive from helm, Medieval word for combat protective headgear. The Medieval great helm covers the whole head and often is accompanied with camail protecting throat and neck as well. Originally a helmet was a helm which covered the head only partly. Contents [hide] 1 Design o 1.1 Materials 2 Helmet types 3 Heraldry 4 Gallery 5 See also 6 References 7 External links Design[edit] A protective helmet worn during rock climbing All helmets attempt to protect the user's head by absorbing mechanical energy and protecting against penetration. Their structure and protective capacity are altered in high-energy impacts. Beside their energy-absorption capability, their volume and weight are also important issues, since higher volume and weight increase the injury risk for the user's head and neck. Anatomical helmets adapted to the inner head structure were invented by neurosurgeons at the end of the 20th century. Helmets used for different purposes have different designs. For example, a bicycle helmet must protect against blunt impact forces from the wearer's head striking the road. A helmet designed for rock climbing must protect against heavy impact, and against objects such as small rocks and climbing equipment falling from above. Practical concerns also dictate helmet design: a bicycling helmet should be aerodynamic in shape and well ventilated, while a rock climbing helmet must be lightweight and small so that it does not interfere with climbing. Some helmets have other protective elements attached to them, such as a face visors or goggles or a face cage, or an ear cage or ear plugs and other forms of protective headgear, and a communications system. Sports helmets may have an integrated metal face protector (face cage). Baseball batting helmets have an expanded protection over the ear, which protects the jaw from injury. Motorcycle helmets often have flip-down face screens for rain and wind protection, and they may also have projecting visors to protect the eyes from glare. Hard hats for construction workers are worn mainly to protect the wearer from falling objects such as tools. Helmets for riot police often have flip-down clear visors and thick padding to protect the back of the neck. Modern firefighter's helmets protect the face and back of the head against impact, fires and electricity, and can include masks, communication systems, and other accessories. Welding helmets protect the eyes and face and neck from flash burn, ultraviolet light, sparks and heat. They have a small window, called a lens shade, through which the welder looks at the weld; for arc welding this window must be much darker than in blowtorch goggles and sunglasses. People with some medical conditions must wear a helmet to protect the brain, due to a gap in the braincase, e.g. because of cleidocranial dysostosis or in separatedcraniopagus twins. Mixed martial arts helmets have ear pads to prevent serious injuries to the athletes, who do not usually endure such force to the ears. Some watersports helmets, such as for underwater hockey or water polo, have ear-cages fitted which are designed to help prevent burst eardrums caused by an excessive water pressure resulting from a contact or percussion from other equipment involved in the sport. Materials[edit] Howard A. Wooten of theTuskegee Airmen wearing leather helmet and goggles Historically, helmets have been made from a wide range of materials, including various metals, plastics, leather, and even some fibrous materials such as Kevlar. Ancient and medieval helmets were usually made of metals, often bronze, iron or steel, though some boar's tusk helmets were known to ancient Mycenea. Some British gamekeepers during the 18th and 19th centuries wore helmets made of straw bound together with cut bramble.[1] Developed in the mid-19th century, the pith helmet, made of pith or cork, was often worn by Europeans in the tropics. Military applications in the 19th-20th centuries saw a number of leather helmets, particularly among aviation and tanker crews in the early 20th century. In the early days of the automobile, some motorists also adopted this style of headgear, and early football helmets were also made of leather. In World War II, American, Soviet, German, Italian and French flight crews wore leather helmets, the German pilots disguising theirs under a beret before disposing of both and switching to cloth caps.[when?] The era of the First and Second World Wars also saw a resurgence of metal military helmets, most notably the Brodie helmet and the Stahlhelm. Modern helmets have a much wider range of applications, including helmets adapted to the specific needs of many athletic pursuits and work environments, and these very often incorporate plastics and other synthetic materials for their light weight and shock absorption capabilities. Some types of synthetic fibers used to make helmets in the 21st century include Aramid, Kevlar and Twaron.[citation needed] Helmet types[edit] A motocross helmet showing the elongated sun visor and chin bar Helmets of many different types have developed over the course of human history. Most early helmets had military uses, though some may have had more ceremonial than combat-related purposes. Two important helmet types to develop in antiquity were the Corinthian helmet and the Roman galea. During the Middle Ages, many different military helmets and some ceremonial helmets were developed, almost all of these being made of metals. Some of the more important medieval developments included the great helm, the bascinet, the frog-mouth helm and the armet. In the 19th century, more materials were incorporated, namely leather, felt and pith. The pith helmet and the leather pickelhaube were important 19th century developments. The greatest expansion in the variety of forms and composition of helmets, however, took place in the 20th century, with the development of highly specialized helmets for a multitude of athletic and professional applications, as well as the advent of modern plastics. During World War I, the French army developed the Adrian helmet, the British developed the Brodie helmet, and the Germans produced the Stahlhelm. Flight helmets were also developed throughout the 20th century. A multitude of athletic helmets, including football helmets, batting helmets, cricket helmets, bicycle helmets, motorcycle helmets and racing helmets, were also developed in the 20th century. Helmets since the mid-20th century have often incorporated lightweight plastics and other synthetic materials, and their use has become highly specialized. Some important recent developments include the French SPECTRA helmet, American PASGT (commonly called "Kevlar" by U.S. troops) and Advanced Combat Helmet, or ACH. A more complete list of helmet types can be found below. Heraldry[edit] Main article: Helmet (heraldry) Escutcheon Field Supporter Supporter Motto (Scotland) Crest Torse Mantling Helm Coronet Compartment Order Ordinaries Common charges Motto right left Achievement elements As the coat of arms was originally designed to distinguish noble combatants on the battlefield or in a tournament, even while covered inarmour, it is not surprising that heraldic elements constantly incorporated the shield and the helmet, these often being the most visible parts of a knight's military equipment. The common practice was to display a helmet as part of the coat of arms, above the shield, a practice maintained long after helmets themselves ceased to be used. In German heraldry, the helmet was even considered to be inseparable from the shield, in contrast toEnglish heraldry, where the practice of displaying the helmet and crest alone with no shield whatsoever came into vogue in Victoriantimes. In most post-medieval heraldic traditions, the style, colour and position of the helmet became emblematic of the rank of the bearer. Rank was also often denoted by a coronet, usually either surmounting the shield or placed upon the helmet. The practice of indicating peerage through the display of barred or grilled helmets first appeared around 1587-1615,[2] and the heraldic convention of displaying helmets of rank in the United Kingdom, which came into vogue around Stuart times, is as follows:[3] Sovereign: a gold barred-face (tournament) helm placed affronté Peer's helmet: silver barred-face (tournament) helm placed in profile Knight's or baronet's helmet: steel helm (earlier jousting helm, later close helm) placed affronté with visor open Esquire's helmet: steel helm placed in profile with visor closed Earlier rolls of arms reveal, however, that early heraldic helmets were depicted in a manner faithful to the styles in actual military ortournament use at the time.[4] .
Load more

Recommended publications
  • A Brief History of Greek Helmets
    Jesse Obert A Brief History of Greek Helmets Author: Jesse Obert Source: AncientPlanet Online Journal Vol. 2 (2012), 48 – 59 Published by: Ioannis Georgopoulos Available at: http://issuu.com/ancientplanet/docs/ancientplanet_vol.2 1 Jesse Obert A Brief History of Greek Helmets Warfare is a constantly changing aspect of human interaction. In Ancient Greece, an emphasis on camaraderie and communal reliance developed the concept of unit cohesion and specialization. Ultimately, Greece would become the birthplace of Western Military thought. The maturation of this mentality can be traced through the stylistic and technological progression of military helmets. Experimentations with helmet design illuminate the limitations and intricacies of warfare as it was developed in the ancient world. Though the development of any technology is nonlinear, studying the evolution of stylistic designs reveals how the unique style of combat in Greece changed war. The history of the Greek helmet began in the 17th century BCE, when the Mycenaean Empire controlled Greece. At the time, the Boar’s Tusk Helmet was popular throughout the region. This conically shaped helmet consisted of alternating levels of boars’ tusks in a style and design that may have originated in Western Europe (Snodgrass 19). The tusks were sewn into a felt or leather cap which served as the base of the helmet. In all reality, the boar’s tusks would have shattered after a single blow, but were an improvement over leather or even felt (Everson 10-11). Additionally, the laces holding the tusks in place would have been exposed and vulnerable, so leather strands were probably tied between the alternating tusks in order to protect the laces (Everson 7).
    [Show full text]
  • Basic-Armouring-2Of4.Pdf
    Chapter 8 — Padding Because you need to build your armour around your padding you need to know how to make it first! Gamberson This supplies basic padding under the body armour and something to hang your arm armour off. Some people rely on their gamberson (with a few minor additions such as a kidney belt) as their torso protection. This gives them excellent mobility at the expense of protection. If you are learning to fight, as well as armour, you are liable to get hit a lot so body armour might not be a bad idea—your choice! Making a gamberson is a sewing job; go get a needle and thread or borrow a sewing machine. The material you make it from should be relatively tough (it’s going to take a beating), adsorbent (you are going to sweat into it), colour fast (unless you want to start a new fashion in oddly coloured flesh) and washable (see sweating above). Period gambersons were made from multiple layers of cloth stitched together or padded with raw wool or similar material, modern ones often use an internal fill of cotton or polyester batting to achieve the same look with less weight. A descrip- tion of an arming doublet of the 15th century is “a dowbelet of ffustean (a type of heavy woollen broad cloth) lyned with satene cutte full of hoolis”. A heavy outer material, such as canvas or calico, is therefore appropriate with a softer lining next to the skin. For extra ventilation you can add buttonholes down the quilting seams.
    [Show full text]
  • A Roman Frontier Post and Its People
    CHAPTER IX Dress and Armour As we gather together the relics brought to light from the abandoned wells and rubbish-pits at Newstead, the figure of the Roman soldier inevitably rises before us. It is a figure rendered familiar by the great monuments which commemorate Imperial triumphs, and by the portrait-reliefs which once stood above the graves of centurions, cavalry soldiers, or standard-bearers recalling to the passers-by the likeness of the dead. It is to such memorials, and to the scanty finds of weapons and armour which have been preserved to our time, that we owe most of the knowledge we possess regarding the arms and equipment of the army of the Empire. The columns and the triumphal arches furnish us with a series of pictures of the soldier in action. The victories of Trajan over the Dacians are sculptured on the column which he had set up in Rome in A.D. 104. The triumphs of Marcus Aurelius over the Marcomanni are unfolded in the reliefs decorating the huge pillar that gives its name to the Piazza Colonna. We follow each stage in the campaigns, the army making roads, building bridges, constructing forts, attacking and attacked. Many details are given which help us to realise vividly the scenes commemorated. No doubt in such sculptures, executed, as they were, in Rome, the artists drew their inspiration to some extent from older Hellenic models, and there thus enters into the treatment a somewhat conventional element. The grave stones of the legionaries or auxiliaries, on the other hand, are probably more exact in details.
    [Show full text]
  • Spring Flyer 2021
    SPRING FLYER 2021 Be Smart. Be Safe. Be Sure.TM ® Third Party MAXVIEW Face Shields Certification • Extra-large stylish crown and wraparound face shield frame • High-impact polycarbonate window (with or without anti-fog) • 370 Speed Dial™ premium ratcheting headgear suspension • All models meet or exceed ANSI Z87.1+ high impact standards The 370 Speed Dial™ • CSA certified to CAN/CSA Z94.3 standards is highlighted by • CE certified Jackson’s famous “Easy Grab-Easy Turn” oversized adjusting dial PROD. NO. Suspension Window Tint Coating List Sale and patented swivel adjuster band— 14200 Ratcheting Clear None $41.95 $34.95 an industry best! 14201 Ratcheting Clear Anti-fog $59.95 $49.95 14200 QUAD 500® Faceshields • Stylish crown and wraparound face shield frame • All models meet or exceed ANSI Z87.1+ • Premium molded polycarbonate AF window high impact standards • 370 Speed Dial™ premium ratcheting • Certified to CAN/CSA Z94.3 standards 14230/14233 headgear suspension on 14220, 14230, 14233 • CE certified 14220 PROD. NO. Description Suspension List Sale 14220 Clear Antifog PC Ratcheting $69.95 $58.50 14225 Clear HHIS Systems Universal Adaptor $68.85 $57.50 14225 14230 Clear Antifog PC-Shade 5 FLIP Ratcheting $89.95 $75.25 Third Party Certification Clear Antifog PC-Shade 8 FLIP Ratcheting $92.95 14233 $77.75 14235 14235 Clear Antifog PC-Shade 5 FLIP w/HHIS Universal Adaptor $88.95 $74.25 MAXVIEW® Replacement Visors QUAD 500® Replacement Visors • Extra-large polycarbonate • For added protection, the molded 14250 window for superior optics and window can be completely framed industry-leading panoramic on the sides and chin and features views and anti-fog coating an extra-large crown • The Quad 500® offers exceptional panoramic views with virtually no distortion 14255 14214 PROD.
    [Show full text]
  • Times Creation
    +91-7351222111 Times Creation https://www.indiamart.com/times-creationharidwar/ Our organization is engaged in manufacturing, exporting and supplying nautical products, armoury products, handicraft items and other decorative brass antiques. This range includes morion helmet, antique norman armour helmet and more. About Us Established in the year 2001, we, Times Creation, we are one of the recognized firms engaged in Manufacturing, Exporting and Supplying a wide range of Medieval Armour Helmets, Medieval Armour Shields, Medieval Body Armour Collections, Medieval Muscle Armour, Armour Gloves, Antique Telephones, Nautical Spot Lamp, Nautical Brass Candle Stand, Nautical Brass Gifts & Home Decor, Nautical Brass Ship Models, Nautical Compass With Wooden Box, Nautical Diving Helmets, etc . These products are manufactured using high-grade raw material, which is procured from the reliable vendors of the market. Moreover, the products offered by us are known for their features like durability, superior finish, attractive designs, strong construction and corrosion resistance. Clients can avail these products in various sizes, designs and finishes as per their specific requirements. We, Times Creation, have established a sophisticated infrastructure, which is spread across a large area in Roorkee, Uttarakhand. Well-segregated into various departments, this infrastructure helps in managing the business related activities in a proper manner. Our departments are well-installed with advanced machines and tools that help in manufacturing in compliance
    [Show full text]
  • Combat Helmets and Blast Traumatic Brain Injury
    Review Articles Combat Helmets and Blast Traumatic Brain Injury Duncan Wallace, FRANZCP and Stephen Rayner, DPsych (Clinical) Abstract: Background: The conflicts in Iraq and Afghanistan and the prominence of traumatic brain injury (TBI), mostly from improvised explosive devices, have focused attention on the effectiveness of combat helmets. Purpose: This paper examines the importance of TBI, the role and history of the development of combat helmets, current helmet designs and effectiveness, helmet design methodology, helmet sensors, future research and recommendations. Method: A literature review was conducted using search terms – combat helmets, traumatic brain injury, concussion, Iraq, Afghanistan and helmet sensors, searching PubMed, MEDLINE, ProQuest and Google Scholar. Conclusions: At present, no existing helmet is able to fully protect against all threats faced on the battlefield. The prominence of traumatic brain injury from improvised explosive devices in the current conflicts in Iraq and Afghanistan has highlighted the limitations in knowledge about blast and how to provide protection from it. As a result, considerable research is currently occurring in how to protect the head from blast over-pressure. Helmet sensors may provide valuable data. Some new combat helmets may be able to protect against rifle rounds, but may result in injuries occurring behind body armour. Optimal combat helmet design requires a balance between the need for protection from trauma and the comfort and practicality of the helmet for the user to ensure the best outcomes. Keywords: combat helmets, traumatic brain injury, concussion, Iraq, Afghanistan. No conflicts of interest were identified by the authors. Introduction Role and history of combat helmets Recent adverse media attention about combat The primary role of the combat helmet is to protect helmets used in Afghanistan by United States the soldier’s head against injury.
    [Show full text]
  • Computational Modeling of Primary Blast Effects on the Human Brain
    Computational Modeling of Primary Blast Effects on the Human Brain by Michelle K. Nyein S.B., Chemistry, Massachusetts Institute of Technology (2004) J.D., Harvard University (2007) S.M., Aeronautics and Astronautics, Massachusetts Institute of Technology (2010) Submitted to the Department of Aeronautics and Astronautics in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Aeronautics and Astronautics at the MASSACHUSETTS INSTITUTE OF TECHNOLOGY June 2013 c Massachusetts Institute of Technology 2013. All rights reserved. Author............................................. ...................................... Department of Aeronautics and Astronautics March 4, 2013 Certified by.......................................... ..................................... Ra´ul Radovitzky Professor of Aeronautics and Astronautics Thesis Supervisor Certified by.......................................... ..................................... Dava J. Newman Professor of Aeronautics and Astronautics Certified by.......................................... ..................................... Laurence R. Young Apollo Program Professor of Aeronautics and Astronautics Certified by.......................................... ..................................... Simona Socrate Principal Research Scientist, Institute for Soldier Nanotechnologies Certified by.......................................... ..................................... David F. Moore Attending Neurologist, Baylor University Medical Center Accepted by........................................
    [Show full text]
  • Archaeologist in the Archive. a Turning Point in the Study of Late-Medieval Helmets in Western Pomerania
    FASCICULI ARCHAEOLOGIAE HISTORICAE FASC. XXXIII, PL ISSN 0860-0007 DOI 10.23858/FAH33.2020.011 ANDRZEJ JANOWSKI* ARCHAEOLOGIST IN THE ARCHIVE. A TURNING POINT IN THE STUDY OF LATE-MEDIEVAL HELMETS IN WESTERN POMERANIA Abstract: The article discusses three late-medieval head protectors from Western Pomerania, forgotten by Polish scholars after World War II. The first one is the great helm known as the Topfhelm from Dargen, the second, a bascinet with visor from Leszczyn and the last one, the jousting sallet from the collection of Szczecin masons. Knowledge about those helms is highly significant for studies of late-medieval armour in Western Pomerania. Keywords: Western Pomerania, medieval armour, great helm, bascinet, jousting sallet Received: 15.04.2020 Revised: 29.04.2020 Accepted: 27.07.2020 Citation: Janowski A. 2020. Archaeologist in the Archive. A Turning Point in the Study of Late-medieval Helmets in Western Pomerania. “Fasciculi Archaeologiae Historicae” 33, 167-174, DOI 10.23858/FAH33.2020.011 Elements of armour either in whole or in large The Great Helm from Dargen fragments belong to unique finds in the archaeology The first piece of head protection discussed here of the Middle Ages. Each more or less complete find is a find which must be known to all armour special- is considered a sensation. Western Pomeranian finds ists (Fig. 1). It is one of the best preserved and oldest are no different in this respect; new finds of this type great helms, dating back to the middle-second half of are few and far between.1 The study of primary sourc- the 13th century.
    [Show full text]
  • PDF Catalogue
    1 GAUL, Massalia, c. 200-120 BCE, AR obol. 0.60g, 9mm. Obv: Bare head of Apollo left Rev: M A within wheel of four spokes. Depeyrot, Marseille 31 From the JB (Edmonton) collection. Obverse off-centre, but high grade, superb style, perfect metal, and spectacular toning. Estimate: 100 Starting price: 50 CAD 2 CIMMERIAN BOSPORUS, Pantikapaion, c. 310-303BC, AE 22. 7.61g, 21.5mm Obv: Bearded head of Satyr (or Pan), right Rev: P-A-N, forepart of griffin left, sturgeon left below Anokhin 1023; MacDonald 69; HGC 7, 113 Ex Lodge Antiquities Estimate: 100 Starting price: 50 CAD 3 CIMMERIAN BOSPOROS, Pantikapaion, c. 325-310 BCE, AE17. 3.91g, 17mm. Obv: Head of satyr left Rev: ΠΑΝ; Head of bull left. MacDonald 67; Anokhin 1046 From the JB (Edmonton) collection. Starting price: 30 CAD 4 THESSALY, Atrax, 3rd c. BCE, AE trichalkon. 6.03g, 18mm. Obv: Laureate head of Apollo right Rev: ATP-A-Γ-IΩN, horseman, raising right hand, advancing right. Rogers 169-71; BCD Thessaly II 59.6-10 Starting price: 30 CAD 5 THESSALY, Krannon, circa 350-300 BCE, AE chalkous. 2.41g, 15.4mm. Obv: Thessalian warrior on horse rearing right. Rev: KPAN, bull butting right; above, trident right. BCD Thessaly II 118.5; HGC 4, 391 From the zumbly collection; ex BCD Collection, with his handwritten tag stating, “V. Ex Thess., Apr. 94, DM 35” Starting price: 30 CAD 6 THESSALY, Phalanna, c. 350 BCE, AE 18 (dichalkon or trichalkon). 6.53g, 17.5mm. Obv: Head of Ares right, A to left .
    [Show full text]
  • Ohio Youth Bicycle Helmet Ordinance Toolkit Assisting Local Communities in Educating Decision Makers on the Importance of a Youth Bicycle Helmet Law
    Ohio Youth Bicycle Helmet Ordinance Toolkit Assisting local communities in educating decision makers on the importance of a youth bicycle helmet law. March 2013 www.healthyohioprogram.org/vipp/oipp/oipp Through a Centers for Disease Control and Prevention Core Injury grant, the Ohio Department of Health’s Violence and Injury Prevention Program established the Ohio Injury Prevention Partnership (OIPP) in November of 2007. The purpose of the OIPP is to bring together a group of multi-disciplinary professionals from across the state to identify priority injury issues and develop strategies to address them. Child injury is one of the OIPP’s priorities and the members recommended the formation of the Child Injury Action Group (CIAG). The CIAG has identified five focus areas to address in their five-year strategic plan, including: teen driving safety, bicycle and wheeled sports helmets, infant sleep-related suffocation, sports- related traumatic brain injury, and child restraint/ booster seat law review/revision. For more information about the OIPP or the CIAG, including how to join, please visit: www.healthyohioprogram.org/vipp/oipp/oipp Acknowledgements Content expertise was provided by the following partners: Akron Children’s Hospital Lisa Pardi, MSN, RN, CNP, CEN Center for Injury Research and Policy at the Research Institute at Nationwide Children's Hospital Nichole Hodges, MPH, MCHES, OIPP Child Injury Action Group, Co-Chair Ohio Department of Health, Violence and Injury Prevention Program Cameron McNamee, MPP Sara Morman Christy Beeghly, MPH The Children’s Medical Center of Dayton Jessica Saunders Ohio Injury Prevention Partnership, Child Injury Action Group Members of the Bicycle and Wheeled Sports Helmet Subcommittee Disclaimer: Please be advised that the views expressed by this document do not necessarily represent those of the Ohio Violence and Injury Prevention Program, Ohio Department of Health or any other contributing agency.
    [Show full text]
  • Franklin Lakes Police Department
    Franklin Lakes Police Department Traffic Bureau 490 DeKorte Drive Headquarters (201) 891-3131 Franklin Lakes, NJ 07417 Traffic Bureau (201) 891-3131 Facsimile (201) 848-9748 June 28, 2018 To: Carmine Pezzuti Chief of Police From: P.O. Denny G. Knubel #51 Traffic Safety Officer RE: Bicycle Safety Tips With the warmer weather here and the completion of another school year, more and more children are out playing. Children and adults alike are taking to the streets on their bicycles. The Franklin Lakes Police Department wishes to remind residents of the bicycle helmet law that requires anyone under the age of seventeen to wear an approved helmet while riding a bicycle in New Jersey. The law also applies to any child in a restraining seat or being towed by a bicycle. Please consider the following bicycle safety tips, and have a safe and happy summer. SAFETY TIPS FOR BICYCLE RIDERS Obey all traffic laws. In New Jersey, bicycles have the same rights and responsibilities as motor vehicles. • Ride on the right. • Obey all traffic signs and signals. • Ride in single file when riding in a group. • Ride with the flow of traffic Wear an approved bicycle helmet, Helmets are the single most effective safety device available to reduce brain injury and/or death. Studies have shown that bike helmets can reduce the risk of head injury by 85 percent and the risk of brain injury by almost 90 percent. • Buy a helmet that meets the safety standards of the American National Standards Institute or Snell Memorial Foundation. • Always ensure the proper fit by tightening the chin strap to keep the helmet from slipping.
    [Show full text]
  • Ballistic Helmets – Their Design, Materials, and Performance Against Traumatic Brain Injury
    University of Nebraska - Lincoln DigitalCommons@University of Nebraska - Lincoln US Army Research U.S. Department of Defense 2013 Ballistic helmets – Their design, materials, and performance against traumatic brain injury S.G. Kulkarni Texas A&M University, [email protected] X.-L. Gao University of Texas at Dallas, [email protected] S.E. Horner U.S. Army, Fort Belvoir J.Q. Zheng U.S. Army, Fort Belvoir N.V. David Universiti Teknologi MARA Follow this and additional works at: https://digitalcommons.unl.edu/usarmyresearch Kulkarni, S.G.; Gao, X.-L.; Horner, S.E.; Zheng, J.Q.; and David, N.V., "Ballistic helmets – Their design, materials, and performance against traumatic brain injury" (2013). US Army Research. 201. https://digitalcommons.unl.edu/usarmyresearch/201 This Article is brought to you for free and open access by the U.S. Department of Defense at DigitalCommons@University of Nebraska - Lincoln. It has been accepted for inclusion in US Army Research by an authorized administrator of DigitalCommons@University of Nebraska - Lincoln. Composite Structures 101 (2013) 313–331 Contents lists available at SciVerse ScienceDirect Composite Structures journal homepage: www.elsevier.com/locate/compstruct Review Ballistic helmets – Their design, materials, and performance against traumatic brain injury ⇑ S.G. Kulkarni a, X.-L. Gao b, , S.E. Horner c, J.Q. Zheng c, N.V. David d a Department of Mechanical Engineering, Texas A&M University, College Station, TX 77843, United States b Department of Mechanical Engineering, University of Texas at Dallas, 800 West Campbell Road, Richardson, TX 75080-3021, United States c Program Executive Office – SOLDIER, U.S.
    [Show full text]