how strong is graphene

The balls cracked open upon impact, and the resulting unzipped cages then bond together to form a graphene film.[262]. Little wonder then why researchers are considering using it to create new forms of body armor. {\displaystyle q=\left|\mathbf {k} -\mathrm {K} \right|} [222], In 2015, intercalating small graphene fragments into the gaps formed by larger, coiled graphene sheets, after annealing provided pathways for conduction, while the fragments helped reinforce the fibers. [237], An aerogel made of graphene layers separated by carbon nanotubes was measured at 0.16 milligrams per cubic centimeter. The IUPAC (International Union for Pure and Applied Chemistry) recommends use of the name "graphite" for the three-dimensional material, and "graphene" only when the reactions, structural relations, or other properties of individual layers are discussed. The sets give graphene a valley degeneracy of gv = 2. The simple fact is that a sheet of material thats only one atom thick just wont be that strong. The material has superior elasticity and absorption. x This dispersion is supposedly suitable for advanced composites,[337][338] paints and coatings, lubricants, oils and functional fluids, capacitors and batteries, thermal management applications, display materials and packaging, solar cells, inks and 3D-printers' materials, and barriers and films. By contrast, for traditional semiconductors the primary point of interest is generally , where momentum is zero. ( Graphene has a strength of about 130 gigapascals for strength and 1.0 terapascals for elasticity; h-BN's values are 100 gigapascals and 0.8 terapascals [166] In 2012, it was further shown that the strength can increase or decrease, depending on the detailed arrangements of the defects. In all cases, graphene must bond to a substrate to retain its two-dimensional shape.[19]. [332] Smartphone products with graphene touch screens are already on the market. e Like our other coatings, this [348], In 2014, research at Stony Brook University showed that graphene nanoribbons, graphene nanoplatelets and graphene nanoonions are non-toxic at concentrations up to 50g/ml. In the second anomaly, the first plateau at N=0 is absent, indicating that bilayer graphene stays metallic at the neutrality point. BN, MoS2, WS2. WebThe Strength of GRAPHENE Explained Subject Zero Science 366K subscribers Subscribe 4.4K Share 169K views 4 years ago The Strength of GRAPHENE Explained - In this 2 Adams UV Graphene Ceramic Spray Coating is an easy-to-use Ceramic Coating that can be applied in minutes. [75][76] In 2015, lithium-coated graphene exhibited superconductivity, a first for graphene. Graphenes superior [82] Graphene doped with potassium in ultra-high vacuum at low temperature can reduce mobility 20-fold. Pillared graphene has not yet been synthesised in the laboratory, but it has been suggested that it may have useful electronic properties, or as a hydrogen storage material. Compared to the fairly well-understood nature of the effect that grain boundary and vacancies have on the mechanical properties of graphene, there is no clear consensus on the general effect that the average grain size has on the strength of polycrystalline graphene. [255] This produces a higher graphene concentration, but removing the surfactant requires chemical treatments. [182] Different cell lines react differently when exposed to graphene, and it has been shown that the lateral size of the graphene flakes, the form and surface chemistry can elicit different biological responses on the same cell line. Graphene analogs are studied intensively since the discovery of graphene in 2004. At the IEDM 2018, researchers from University of California, Santa Barbara, demonstrated a novel CMOS-compatible graphene synthesis process at 300C suitable for back-end-of-line (BEOL) applications. [305], A highly exothermic reaction combusts magnesium in an oxidationreduction reaction with carbon dioxide, producing carbon nanoparticles including graphene and fullerenes. Crystallites larger than 1mm and visible to the naked eye can be obtained. However, liquid cascade centrifugation can be used to size select the suspensions and achieve monolayer enrichment. [26] Its structure was determined from single-crystal diffraction in 1924. However, neither then nor today is it possible to argue how many layers were in those flakes. T. Hashimoto, S. Kamikawa, Y. Yagi, J. Haruyama, H. Yang, M. Chshiev, Multi-Parametric Surface Plasmon Resonance, University of Illinois at Urbana-Champaign, Epitaxial graphene growth on silicon carbide, "graphene definition, meaning what is graphene in the British English Dictionary & Thesaurus Cambridge Dictionaries Online", "Transmission Electron Microscopy of Carbon: A Brief History", "Elastic straining of free-standing monolayer graphene", "This Month in Physics History: October 22, 2004: Discovery of Graphene", "Global Demand for Graphene after Commercial Production to be Enormous, says Report", "Graphene properties (A Complete Reference)", Philosophical Transactions of the Royal Society of London, "Interferenz an regellos orientierten Teilchen im Rntgenlicht I", "Zur Kenntnis des Graphitischen Kohlenstoffs und der Graphitsure", Zeitschrift fr anorganische und allgemeine Chemie, "Surface Properties of Extremely Thin Graphite Lamellae", Ultra-thin flexible expanded graphite heating element, "Graphene edges closer to widespread production and application", "New 60m Engineering Innovation Centre to be based in Manchester", "Graphene maker aims to build British, billion-pound venture", "Consett firm Thomas Swan sees export success with grapheme", "Global breakthrough: Irish scientists discover how to mass produce 'wonder material' graphene", "Cambridge Nanosystems opens new factory for commercial graphene production", "Estudo da estrutura eletrnica do grafeno e grafeno hidratado", "Constraints on stellar grain formation from presolar graphite in the Murchison meteorite", Physicists Show Electrons Can Travel More Than 100 Times Faster in Graphene:: University Communications Newsdesk, University of Maryland, "Graphene Devices Stand the Test of Time", "Researchers create superconducting graphene", "New form of graphene allows electrons to behave like photons", Light pulses control how graphene conducts electricity, "A self-consistent theory for graphene transport", "Dirac four-potential tunings-based quantum transistor utilizing the Lorentz force", "Fractionalization of charge and statistics in graphene and related structures", "A physicist peels back the layers of excitement about graphene", "Graphene Gazing Gives Glimpse Of Foundations Of Universe", "Surface plasmon resonance for characterization of large-area atomic-layer graphene film", "Unidirectional surface plasmons in nonreciprocal graphene", "Strong terahertz conductance of graphene nanoribbons under a magnetic field", "Excitation of surface electromagnetic waves in a graphene-based Bragg grating", "Microwave and optical saturable absorption in graphene", "Electronic excitations: Density-functional versus many-body Green's-function approaches", "Excitons of Edge and Surface Functionalized Graphene Nanoribbons", "Scaling of Excitons in Graphene Nanoribbons with Armchair Shaped Edges", "Graphene edge spins: spintronics and magnetism in graphene nanomeshes", "Scientists give graphene one more quality magnetism", "Two-Dimensional Phonon Transport in Supported Graphene", "A Three-Dimensional Vertically Aligned Functionalized Multilayer Graphene Architecture: An Approach for Graphene-Based Thermal Interfacial Materials", "Mechanical properties of suspended graphene sheets", "Mechanical properties of nickel-graphene composites synthesized by electrochemical deposition", "Graphene Armor Would Be Light, Flexible and Far Stronger Than Steel", "Graphene could find use in lightweight ballistic body armor", "Mechanical properties of graphene and graphene-based nanocomposites", "The nature of strength enhancement and weakening by pentagonheptagon defects in graphene", "Measurement of the intrinsic strength of crystalline and polycrystalline graphene", "Inverse Pseudo Hall-Petch Relation in Polycrystalline Graphene", "Thinnest graphene sheets react strongly with hydrogen atoms; thicker sheets are relatively unaffected", "Biocompatibility Considerations in the Design of Graphene Biomedical Materials", "Graphene shown to safely interact with neurons in the brain", "Generic epitaxial graphene biosensors for ultrasensitive detection of cancer risk biomarker", "Polish scientists find way to make super-strong graphene sheets | Graphene-Info", "Strain and Piezo-Doping Mismatch between Graphene Layers", "Gram-scale bottom-up flash graphene synthesis", "In-plane heterostructures of graphene and hexagonal boron nitride with controlled domain sizes", "Thermal Conductivity of Graphene-hBN Superlattice Ribbons", "Suppression of coherent thermal transport in quasiperiodic graphene-hBN superlattice ribbons", "Thermal conductivity of ThueMorse and double-period quasiperiodic graphene-hBN superlattices", "Transporte trmico em nanofitas de grafeno-nitreto de boro", Creative Commons Attribution 4.0 International License, "Deep Ultraviolet to Near-Infrared Emission and Photoresponse in Layered N-Doped Graphene Quantum Dots", "Evaluation of biological effects of graphene oxide using Drosophila", "Directly Drawing Self-Assembled, Porous, and Monolithic Graphene Fiber from Chemical Vapor Deposition Grown Graphene Film and Its Electrochemical Properties", "Highly thermally conductive and mechanically strong graphene fibers", "3D graphene could replace expensive platinum in solar cells", "Fabrication and characterization of three-dimensional macroscopic all-carbon scaffolds", "Porous three-dimensional carbon nanotube scaffolds for tissue engineering", "Hollow structures with bilayer graphene walls", "Bilayer graphene formed by passage of current through graphite: evidence for a three dimensional structure", "Carbon nanotubes as reinforcing bars to strengthen graphene and increase conductivity", "Robust new process forms 3D shapes from flat sheets of graphene", "How to form 3-D shapes from flat sheets of graphene", "Graphene aerogel is seven times lighter than air, can balance on a blade of grass - Slideshow | ExtremeTech", "Graphene nano-coils discovered to be powerful natural electromagnets", "Wrinkles and crumples make graphene better | News from Brown", "Production and processing of graphene and related materials", "A novel mechanical cleavage method for synthesizing few-layer graphenes", "A new method of producing large volumes of high-quality graphene", "Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids", "How to Make Graphene Using Supersonic Buckyballs | MIT Technology Review", "Researchers develop graphene supercapacitor holding promise for portable electronics / UCLA Newsroom", "Large-scale preparation of graphene by high temperature insertion of hydrogen into graphite", "How to tune graphene properties by introducing defects | KurzweilAI", "Epitaxial graphene: How silicon leaves the scene", International Journal of Modern Physics B, "Samsung's graphene breakthrough could finally put the wonder material into real-world devices", "New process could lead to more widespread use of graphene", "Synthesis of high-quality monolayer and bilayer graphene on copper using chemical vapor deposition", "Purdue-based startup scales up graphene production, develops biosensors and supercapacitors", "Startup scales up graphene production, develops biosensors and supercapacitors", "New process could usher in "graphene-driven industrial revolution", "High Quality Monolayer Graphene Synthesized by Resistive Heating Cold Wall Chemical Vapor Deposition", "Preparation of conductive graphene/graphite infused fabrics using an interface trapping method", "Polymer/Pristine Graphene Based Composites: From Emulsions to Strong, Electrically Conducting Foams", "Effect of Aqueous Anions on Graphene Exfoliation", "Thermal and Electrical Properties of Nanocomposites Based on SelfAssembled Pristine Graphene", "Controlled 3D Assembly of Graphene Sheets to Build Conductive, Chemically Selective and ShapeResponsive Materials", "Self-Assembled Graphene Composites for Flow-Through Filtration", "PolyHIPE foams from pristine graphene: Strong, porous, and electrically conductive materials templated by a 2D surfactant", "Pristine Graphene Microspheres by the Spreading and Trapping of Graphene at an Interface", "Conductive Thin Films of Pristine Graphene by Solvent Interface Trapping", "Interface-exfoliated graphene-based conductive screen-printing inks: low-loading, low-cost, and additive-free", "Supersonic spray creates high-quality graphene layer", "Laser-induced porous graphene films from commercial polymers", "Converting plastic waste pyrolysis ash into flash graphene", "Korean researchers grow wafer-scale graphene on a silicon substrate | KurzweilAI", "Graphene electro-optic modulator with 30 GHz bandwidth", "Waveguide Engineering of Graphene OptoelectronicsModulators and Polarizers", "Path towards graphene commercialization from lab to market", "Racquet Review: Head Graphene XT Speed Pro", "GRAPHENITE GRAPHENE INFUSED 3D PRINTER POWDER 30 Lbs $499.95", "Two-dimensional nanostructure-reinforced biodegradable polymeric nanocomposites for bone tissue engineering", "Applied Graphene Materials plc:: Graphene dispersions", "BAC Debuts First Ever Graphene Constructed Vehicle", "On-chip intercalated-graphene inductors for next-generation radio frequency electronics", "The Last Barrier to Ultra-Miniaturized Electronics is Broken, Thanks To A New Type Of Inductor", "Engineers reinvent the inductor after two centuries", "Considering the effect of graphene loading in water-based epoxy coatings", "Toxicology of graphene-based nanomaterials", "Toxicity of graphene-family nanoparticles: A general review of the origins and mechanisms", "Green synthesis of peptide functionalized reduced graphene oxide (rGO) nano bioconjugate with enhanced antibacterial activity", "The effects of graphene nanostructures on mesenchymal stem cells", "Jagged graphene edges can slice and dice cell membranes - News from Brown", "Graphene microsheets enter cells through spontaneous membrane penetration at edge asperities and corner sites", Graphene: Patent surge reveals global race, 'Engineering Controls for Nano-scale Graphene Platelets During Manufacturing and Handling Processes' (PDF), https://en.wikipedia.org/w/index.php?title=Graphene&oldid=1141160690, CS1 Brazilian Portuguese-language sources (pt-br), Articles with dead external links from January 2020, Articles with permanently dead external links, Short description is different from Wikidata, Articles with unsourced statements from August 2020, Articles with unsourced statements from July 2020, Articles with unsourced statements from December 2013, Wikipedia articles needing clarification from May 2016, Articles with unsourced statements from April 2014, Creative Commons Attribution-ShareAlike License 3.0, This page was last edited on 23 February 2023, at 17:38. In 2013 a group of Polish scientists presented a production unit that allows the manufacture of continuous monolayer sheets. The resulting material (circular graphene layers of 5.3 or 5.31010m thickness) is soluble in tetrahydrofuran, tetrachloromethane and dichloroethane. The two in-plane modes (LA, TA) have a linear dispersion relation, whereas the out of plane mode (ZA) has a quadratic dispersion relation. The pz electrons forming the bands in graphene can therefore be treated independently. The silica electrically isolated the graphene and weakly interacted with it, providing nearly charge-neutral graphene layers. Based on this model, they found that cracks are initiated at grain-boundary junctions, but the grain size does not significantly affect the strength. e Multilayer samples down to 10nm in thickness were obtained. 2 [2], Unlike normal metals, graphene's longitudinal resistance shows maxima rather than minima for integral values of the Landau filling factor in measurements of the Shubnikovde Haas oscillations, whereby the term integral quantum Hall effect. [143] It can be shown by using the WiedemannFranz law, that the thermal conduction is phonon-dominated. [49] In North East England two commercial manufacturers, Applied Graphene Materials[50] and Thomas Swan Limited[51][52] have begun manufacturing. Great as a stand-alone product or topper for your current Ceramic Coating. It was discovered in 2013 by scientists at Zhejiang University. The intensity of the diffraction peak around 22.6 o (attributed to graphene-like nanosheet structure) was stronger for S-mZVI/SGB than other samples (Yang et al. [307][308], In 2014, a CO2 infrared laser was used to produce patterned porous three-dimensional laser-induced graphene (LIG) film networks from commercial polymer films. Graphene is the only form of carbon (or solid material) in which every atom is available for chemical reaction from two sides (due to the 2D structure). The two sets are labeled K and K'. [96][97], These observations with Is graphene a carbon fiber? At room temperature, resistance increases abruptly at a particular lengththe ballistic mode at 16 micrometres and the other at 160 nanometres (1% of the former length). Graphene's permittivity varies with frequency. [129] Low-defect graphene nanomeshes manufactured by using a non-lithographic method exhibit large-amplitude ferromagnetism even at room temperature. [2]. Graphene is made from a lattice of carbon atoms arranged in a hexagonal pattern, similar to chicken wire. This model permits derivation of analytical expressions for the electromagnetic field in the presence of a graphene sheet in terms of a dyadic Green function (represented using Sommerfeld integrals) and exciting electric current. This effect results from the covalent bonding between C and surface Si atoms, modifying the -orbital network of the graphene layer. Adams UV Graphene Ceramic Spray [10][11], Scientists theorized the potential existence and production of graphene for decades. When adding more than one atomic layer to the barrier in each period, the coupling of electronic wavefunctions in neighboring potential wells can be significantly reduced, which leads to the degeneration of continuous subbands into quantized energy levels. Graphene analogs[323] (also referred to as "artificial graphene") are two-dimensional systems which exhibit similar properties to graphene. By efficiently controlling the chemical potential of graphene, the unidirectional working frequency can be continuously tunable from THz to near-infrared and even visible. [312][313][314] The graphenization process is kinetically controlled, and the energy dose is chosen to preserve the carbon in its graphenic state (excessive energy input leads to subsequent graphitization through annealing). r , and the zero of energy is set to coincide with the Dirac point. [230] The discovered nanostructure is a multilayer system of parallel hollow nanochannels located along the surface and having quadrangular cross-section. These can change the polymerization pathway and similar chemical processes. Free shipping for many products! [2], In 2002, Robert B. Rutherford and Richard L. Dudman filed for a patent in the US on a method to produce graphene by repeatedly peeling off layers from a graphite flake adhered to a substrate, achieving a graphite thickness of 0.00001 inches (2.5107 metres). [147], Despite its 2-D nature, graphene has 3 acoustic phonon modes. Liquid phase exfoliation (LPE) is a relatively simple method which involves dispersing graphite in a liquid medium to produce graphene by sonication or high shear mixing, followed by centrifugation,[251][252] producing concentrations as high as 2mg/ml in N-methylpyrrolidone (NMP). [15] High-quality graphene proved to be surprisingly easy to isolate. The absence of UV scattering and absorption allows for fast and high-resolution 3D printing. K Even with extreme deformation, excellent carrier mobility in monolayer graphene can be preserved. Since the early 2000s, a number of companies and research laboratories have been working to develop commercial applications of graphene. Room temperature treatment of SLGO with carbodiimides leads to the collapse of the individual sheets into star-like clusters that exhibited poor subsequent reactivity with amines (c. 35% conversion of the intermediate to the final amide). doses was evaluated for its biological effects on larvae and the imago ofDrosophila melanogaster. focussed on graphene-family nanomaterials (GFNs) and revealed several typical mechanisms such as physical destruction, oxidative stress, DNA damage, inflammatory response, apoptosis, autophagy, and necrosis. 2021), which indicated that the existence of aggregated or restacked graphene-like nanosheets. Graphene shows the quantum Hall effect with respect to conductivity quantization: the effect is unordinary in that the sequence of steps is shifted by 1/2 with respect to the standard sequence and with an additional factor of 4. Using a suitable ionic liquid as the dispersing liquid medium produced concentrations above 5mg/ml. As a consequence, at low energies, even neglecting the true spin, the electrons can be described by an equation that is formally equivalent to the massless Dirac equation. The new material, a sponge-like configuration with a density of just 5 percent, can have a strength 10 times that of steel. In its two-dimensional form, graphene is thought to be the strongest of all known materials. But researchers until now have had a hard time translating that two-dimensional strength into useful three-dimensional materials. [101], The mass can be positive or negative. It was first described theoretically by George Froudakis and colleagues of the University of Crete in Greece in 2008. When voltage is applied to such a coil, current flows around the spiral, producing a magnetic field. [64][65], The cleavage technique led directly to the first observation of the anomalous quantum Hall effect in graphene in 2005, by Geim's group and by Philip Kim and Yuanbo Zhang. [108] Graphene/graphene oxide systems exhibit electrochromic behavior, allowing tuning of both linear and ultrafast optical properties. 1 They proposed that, in fact, for sufficiently large angle GB, the strength of the GB is similar to pristine graphene. [174] The onset temperature of reaction between the basal plane of single-layer graphene and oxygen gas is below 260C (530K). Viscosity measurements confirmed that the graphene colloidal suspension (Graphene nanofluid) exhibit Newtonian behavior, with the viscosity showing close resemblance to that of water. / Herein, an insight into how the electronic structure and charge distribution of both SL and BL graphene nanoribbons can be controlled not only in armchair but also in zigzag edge terminations using electric stimulants is provided by the results. [345], One review on graphene toxicity published in 2016 by Lalwani et al. [317][318][319] The process involves pressure-assisted solid-state diffusion of carbon through a thin-film of metal catalyst. [36] This paper reports graphitic flakes that give an additional contrast equivalent of down to ~0.4 nm or 3 atomic layers of amorphous carbon. [168] In the same year, researchers from UC Berkeley and UCLA probed bi-crystalline graphene with TEM and AFM. The enhancement in mechanical properties of the composites is attributed to the high interaction between Ni and graphene and the prevention of the dislocation sliding in the Ni matrix by the graphene. [233][234], Functionalized single- or multiwalled carbon nanotubes are spin-coated on copper foils and then heated and cooled, using the nanotubes themselves as the carbon source. glucose, sugar, fructose, etc.) This phenomenon, named "membrane effect," was predicted by Lifshitz in 1952. [98][99], The Van der Waals force (or dispersion force) is also unusual, obeying an inverse cubic, asymptotic power law in contrast to the usual inverse quartic. Varying a pulsed voltage controls thickness, flake area, number of defects and affects its properties. [294][295], Reported by a group led by D. H. Adamson, graphene can be produced from natural graphite while preserving the integrity of the sheets using solvent interface trapping method (SITM). You would need to stack lots of graphene sheets on top of each other to produce an object with decent strength. Graphene is a zero-gap semiconductor, because its conduction and valence bands meet at the Dirac points. Later in 2014, the Rice team announced that graphene showed a greater ability to distribute force from an impact than any known material, ten times that of steel per unit weight. Ballistic electrons resemble those in cylindrical carbon nanotubes. WebFind many great new & used options and get the best deals for HEAD Graphene 360 Gravity Pro Tennis Racquet 4 3/8 L3 at the best online prices at eBay! The protection of graphene surface by a coating with materials such as SiN, PMMA, h-BN, etc., have been discussed by researchers. (In the "armchair" orientation, the edges behave like semiconductors. [2] These anomalies are present not only at extremely low temperatures but also at room temperature, i.e. [141] Likewise, polymeric residue can contribute to a similar decrease in the thermal conductivity of suspended graphene to approximately 500 600Wm1K1 for bilayer graphene. [152] Due to its large surface energy and out of plane ductility, flat graphene sheets are unstable with respect to scrolling, i.e. [233], In 2015, researchers from the University of Illinois at Urbana-Champaign (UIUC) developed a new approach for forming 3D shapes from flat, 2D sheets of graphene. The motivation behind such model was that similar systems had been experimentally observed in graphene flakes grown on the surface of liquid copper. 2021), which indicated that the existence of aggregated or restacked graphene-like nanosheets. 2 The second step binds the graphene to a substrate. [126][127][128] Spin coherence length above 1 micrometre at room temperature was observed,[126] and control of the spin current polarity with an electrical gate was observed at low temperature. Starting in the 1970s, C. Oshima and others described single layers of carbon atoms that were grown epitaxially on top of other materials. [239], A solenoid made with such a coil behaves as a quantum conductor whose current distribution between the core and exterior varies with applied voltage, resulting in nonlinear inductance. [347], A 2020 study showed that the toxicity of graphene is dependent on several factors such as shape, size, purity, post-production processing steps, oxidative state, functional groups, dispersion state, synthesis methods, route and dose of administration, and exposure times. indicate that the four-fold degeneracy (two valley and two spin degrees of freedom) of the Landau energy levels is partially or completely lifted. In addition, it is known that when single-layer graphene is supported on an amorphous material, the thermal conductivity is reduced to about 500 600Wm1K1 at room temperature as a result of scattering of graphene lattice waves by the substrate,[139][140] and can be even lower for few layer graphene encased in amorphous oxide. The ribbons can act more like optical waveguides or quantum dots, allowing electrons to flow smoothly along the ribbon edges. = / [72][73], The corresponding resistivity of graphene sheets would be 108m. WebThe specific strength (force per unit area divided by density) of Carbyne is 6.07.510^7 Nm/kg. Graphene doped with various gaseous species (both acceptors and donors) can be returned to an undoped state by gentle heating in vacuum. WebGraphene also has very high thermal conductivity and, therefore, could be used to remove heat from electronic circuits. at roughly 20C (293K). They found the magnetic field would be strongest in the hollow, nanometer-wide cavity at the spiral's center. [289][290], Growing graphene in an industrial resistive-heating cold wall CVD system was claimed to produce graphene 100 times faster than conventional CVD systems, cut costs by 99% and produce material with enhanced electronic qualities. It is also the thinnest material possible one atom thick and very lightweight and transparent. y SLGO has also been grafted with polyallylamine, cross-linked through epoxy groups. Graphene is a single, thin layer of graphite the soft, flaky material used in pencil lead. The material is made of carbon atoms that are bonded together in a repeating pattern of hexagons. Graphene has a stronger tensile strength than Kevlar and 200x the strength of steel of comparative mass.

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