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Matches in DBpedia 2016-04 for { <http://dbpedia.org/resource/High-strength_low-alloy_steel> ?p ?o }

• High-strength_low-alloy_steel abstract "See also: HSLA color space (hue, saturation, lightness, alpha)High-strength low-alloy steel (HSLA) is a type of alloy steel that provides better mechanical properties or greater resistance to corrosion than carbon steel. HSLA steels vary from other steels in that they are not made to meet a specific chemical composition but rather to specific mechanical properties. They have a carbon content between 0.05–0.25% to retain formability and weldability. Other alloying elements include up to 2.0% manganese and small quantities of copper, nickel, niobium, nitrogen, vanadium, chromium, molybdenum, titanium, calcium, rare earth elements, or zirconium. Copper, titanium, vanadium, and niobium are added for strengthening purposes. These elements are intended to alter the microstructure of carbon steels, which is usually a ferrite-pearlite aggregate, to produce a very fine dispersion of alloy carbides in an almost pure ferrite matrix. This eliminates the toughness-reducing effect of a pearlitic volume fraction yet maintains and increases the material's strength by refining the grain size, which in the case of ferrite increases yield strength by 50% for every halving of the mean grain diameter. Precipitation strengthening plays a minor role, too. Their yield strengths can be anywhere between 250–590 megapascals (36,000–86,000 psi). Because of their higher strength and toughness HSLA steels usually require 25 to 30% more power to form, as compared to carbon steels.Copper, silicon, nickel, chromium, and phosphorus are added to increase corrosion resistance. Zirconium, calcium, and rare earth elements are added for sulfide-inclusion shape control which increases formability. These are needed because most HSLA steels have directionally sensitive properties. Formability and impact strength can vary significantly when tested longitudinally and transversely to the grain. Bends that are parallel to the longitudinal grain are more likely to crack around the outer edge because it experiences tensile loads. This directional characteristic is substantially reduced in HSLA steels that have been treated for sulfide shape control.They are used in cars, trucks, cranes, bridges, roller coasters and other structures that are designed to handle large amounts of stress or need a good strength-to-weight ratio. HSLA steel cross-sections and structures are usually 20 to 30% lighter than a carbon steel with the same strength.HSLA steels are also more resistant to rust than most carbon steels because of their lack of pearlite – the fine layers of ferrite (almost pure iron) and cementite in pearlite. HSLA steels usually have densities of around 7800 kg/m³.".
• High-strength_low-alloy_steel wikiPageID "339129".
• High-strength_low-alloy_steel wikiPageLength "9788".
• High-strength_low-alloy_steel wikiPageOutDegree "34".
• High-strength_low-alloy_steel wikiPageRevisionID "707219697".
• High-strength_low-alloy_steel wikiPageWikiLink A36_steel.
• High-strength_low-alloy_steel wikiPageWikiLink ASTM_International.
• High-strength_low-alloy_steel wikiPageWikiLink Acicular_ferrite.
• High-strength_low-alloy_steel wikiPageWikiLink Alloy_steel.
• High-strength_low-alloy_steel wikiPageWikiLink Calcium.
• High-strength_low-alloy_steel wikiPageWikiLink Carbide.
• High-strength_low-alloy_steel wikiPageWikiLink Carbon_steel.
• High-strength_low-alloy_steel wikiPageWikiLink Category:Steels.
• High-strength_low-alloy_steel wikiPageWikiLink Chromium.
• High-strength_low-alloy_steel wikiPageWikiLink Copper.
• High-strength_low-alloy_steel wikiPageWikiLink Dual-phase_steel.
• High-strength_low-alloy_steel wikiPageWikiLink Ductility.
• High-strength_low-alloy_steel wikiPageWikiLink Ferrite_(iron).
• High-strength_low-alloy_steel wikiPageWikiLink Formability.
• High-strength_low-alloy_steel wikiPageWikiLink HSL_and_HSV.
• High-strength_low-alloy_steel wikiPageWikiLink Hardenability.
• High-strength_low-alloy_steel wikiPageWikiLink Microalloyed_steel.
• High-strength_low-alloy_steel wikiPageWikiLink Microstructure.
• High-strength_low-alloy_steel wikiPageWikiLink Molybdenum.
• High-strength_low-alloy_steel wikiPageWikiLink Nickel.
• High-strength_low-alloy_steel wikiPageWikiLink Niobium.
• High-strength_low-alloy_steel wikiPageWikiLink Nitrogen.
• High-strength_low-alloy_steel wikiPageWikiLink Pearlite.
• High-strength_low-alloy_steel wikiPageWikiLink Precipitation_hardening.
• High-strength_low-alloy_steel wikiPageWikiLink Rare_earth_element.
• High-strength_low-alloy_steel wikiPageWikiLink Rust.
• High-strength_low-alloy_steel wikiPageWikiLink SAE_International.
• High-strength_low-alloy_steel wikiPageWikiLink Stress_(mechanics).
• High-strength_low-alloy_steel wikiPageWikiLink Titanium.
• High-strength_low-alloy_steel wikiPageWikiLink Vanadium.
• High-strength_low-alloy_steel wikiPageWikiLink Weathering_steel.
• High-strength_low-alloy_steel wikiPageWikiLink Weldability.
• High-strength_low-alloy_steel wikiPageWikiLink Yield_(engineering).
• High-strength_low-alloy_steel wikiPageWikiLink Zirconium.
• High-strength_low-alloy_steel wikiPageWikiLinkText "HSLA steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "High-strength low-alloy steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high strength low alloy steels (HULA)".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high strength steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high tensile steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high tensile strength steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high-strength low-alloy steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high-strength metals".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high-strength steel".
• High-strength_low-alloy_steel wikiPageWikiLinkText "high-strength steels".
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Authority_control.
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Citation.
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Citation_needed.
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Convert.
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Reflist.
• High-strength_low-alloy_steel wikiPageUsesTemplate Template:Steels.
• High-strength_low-alloy_steel subject Category:Steels.
• High-strength_low-alloy_steel hypernym Steel.
• High-strength_low-alloy_steel type ArchitecturalStructure.
• High-strength_low-alloy_steel type Redirect.
• High-strength_low-alloy_steel type Steel.
• High-strength_low-alloy_steel type Thing.
• High-strength_low-alloy_steel comment "See also: HSLA color space (hue, saturation, lightness, alpha)High-strength low-alloy steel (HSLA) is a type of alloy steel that provides better mechanical properties or greater resistance to corrosion than carbon steel. HSLA steels vary from other steels in that they are not made to meet a specific chemical composition but rather to specific mechanical properties. They have a carbon content between 0.05–0.25% to retain formability and weldability.".
• High-strength_low-alloy_steel label "High-strength low-alloy steel".
• High-strength_low-alloy_steel sameAs Q3268600.
• High-strength_low-alloy_steel sameAs Acero_microaleado.
• High-strength_low-alloy_steel sameAs فولاد_کم‌آلیاژ_پراستحکام.
• High-strength_low-alloy_steel sameAs HSLA-teräs.
• High-strength_low-alloy_steel sameAs Mikrolegirani_čelik.
• High-strength_low-alloy_steel sameAs 高張力鋼.
• High-strength_low-alloy_steel sameAs Stal_konstrukcyjna_niskostopowa.
• High-strength_low-alloy_steel sameAs m.01xvzm.
• High-strength_low-alloy_steel sameAs Mikrolegirani_čelik.
• High-strength_low-alloy_steel sameAs Thép_hợp_kim_thấp_có_độ_bền_cao.
• High-strength_low-alloy_steel sameAs Q3268600.
• High-strength_low-alloy_steel wasDerivedFrom High-strength_low-alloy_steel?oldid=707219697.
• High-strength_low-alloy_steel isPrimaryTopicOf High-strength_low-alloy_steel.