155results about How to "Simple chemical composition" patented technology

The present invention provides a dual phase steel sheet made up by using medium-thin sheet billet through a certain continuous-casting and continuous-rolling process. The component composition of said steel sheet includes (by wt%) 0.04%-0.11% of C, 0.02%-1.5% of Si, 0.6%-2.50% of Mn, 0.02%-2.0% of Cr, also can contain Mo or Ti, the rest is Fe and unavoidable impurity. The microscopic structure of said steel sheet includes: matrix phase is ferrite and second phase mainly is martensite. Besides, said invention also provides the concrete operation steps of its production method.

A biodegradable plastic composition is provided. The biodegradable plastic composition includes a starch in a range from about 25% to about 50% by weight of the composition, a synthetic biodegradable resin in a range from about 10% to about 40% by weight of the composition, a synthetic resin with linear alkenes in a range from about 5% to about 15% by weight of the composition, an affinity agent in a range from about 8% to about 20% by weight of the composition, a coupling agent in a range from about 1% to about 3% by weight of the composition, and an additives in a range from about 1% to about 15% by weight of the composition. Further, a producing method of the biodegradable plastic also is provided.

The invention discloses high-performance building structure refractory steel plates and a manufacturing method thereof. The high-performance building structure refractory steel plate comprises the following chemical components in percentage by weight: 0.02 to 0.12 percent of C, 0.05 to 0.50 percent of Si, 0.08 to 1.50 percent of Mn, 0.010 to 0.050 percent of Nb, 0.010 to 0.040 percent of Ti, 0.010 to 0.050 percent of Als, 0.20 to 0.60 percent of Cr, 0.20 to 0.40 percent of Mo, less than or equal to 0.015 percent of P, less than or equal to 0.005 percent of S, less than or equal to 0.0040 percent of N, less than or equal to 0.0020 percent of O and the balance of Fe and inevitable impurities. The production process of the high-performance building structure refractory steel plates is characterized in that: the steel blank heating temperature is 1,100 to 1,250 DEG C; the heating time is 60 to 110s/cm; two-stage controlled rolling is adopted; the final rolling temperature is kept between 800 and 900 DEG C; cooling is started 30 to 120 seconds later after final rolling; the final cooling temperature is kept between 500 and 750 DEG C; the steel plates are stacked quickly, cooled slowly and kept at a constant temperature; the stacking temperature is kept between 650 and 300 DEG C; and the temperature is kept for 10 to 24 hours. The plates have the characteristics of simple chemical components, low cost, and high refractability.

the invention discloses a marine exploiting platform steel of erosion property of sea water resistance, which comprises the following parts: 0.03-0.09% C, 0.90-1.60% Mn, 0.10-0.50% Si, 0.006-0.020% P, 0.004-0.100% Cr, 0.02-0.40% Cu, 0.010-0.060% Als, 0.005-0.060% Nb, 0.005-0.030% Ti, Fe and impurity. the manufacturing method comprises the following steps: desulfurizing; blowing; disposing through vacuum; casting continually; rolling.

The invention relates to a ferrous alloy and a production process thereof, especially a martensite abrasion resistant steel and a production process thereof. The martensite abrasion-resistant steel with high strength is prepared from raw chemical components by weight percentage as follows: 0.1%<=C<=0.2%, 0.5%<=Si<=1.0%, 1.0%<=Mn<=2.0%, P<=0.009%, S<=0.004%, Al<=0.03%, 0.02%<=Nb<=0.04%, 0.02%<=Ti<=0.03%, 0.015%<=V<=0.060%, 0.0015%<=B<=0.0020%, the residual is Fe and other unavoidable impurity. The production produce of the martensite abrasion-resistant steel with high strength is that: smeltingin converter or electric furnace - secondary refining in vacuum furnace - casting billet or casting ingot - reheating billet or steel ingot - TMCP + rapidly cooling process - steel plate. The martensite abrasion-resistant steel with high strength has higher strength, hardness, toughness and abrasion-resistance, which can ensure weldability and reduce cost.

The invention discloses a 600MPa high strength weathering steel and the manufacturing method, which is characterized in that: the 600MPa high strength weathering steel adopts electric stove-thin slab continuous casting and rolling process for preparation; the main chemical components of the refined molten steel for preparing the high strength weathering steel are: C: 0.045 wt % to 0.07wt%, Si: 0.10 wt % to 0.29wt%, Mn: 0.8 wt % to 1.5wt%, P: 0.005 wt% to 0.030wt%, S: 0.002 wt% to 0.008 wt%, Cu: 0.20 wt% to 0.5wt%, Cr: 0.3 wt% to 0.7wt%,Ni: 0.15 wt % to 0.35wt%, Ti: 0.06 wt% to 0.079wt%, Nb: 0.035 wt% to 0.050wt%, Alt: 0.025 wt% to 0.050wt%. The 600MPa high strength weathering steel has the advantages of low cost, strong competitiveness, cold formability, good welding performance and application to tower frame, heavy duty automobile, bridge, container, railway vehicle manufacture.

This invention relates to a method for producing high-strength ship plate steel suitable for high heat input welding. The chemical compositions of the ship plate steel are: C 0.01-0.18 wt.%, Si 0.05-0.4 wt.%, Mn 1.0-1.8 wt.%, Als 0.001-0.06 wt.%, Nb 0.01-0.08 wt.%, Ti 0.01-0.08 wt.%, N 0.002-0.012 wt.%, B 0.0001-0.0030 wt.%, one or more of Ca, Mg and Zr 0.0001-0.030 wt.%, P less than 0.015 wt.%, S less than 0.010 wt.%, Fe and impurities. The method comprises: keeping the oxygen content in the molten steel at 10-600 ppm, performing deoxidation with Fe-Ti alloy or metal Ti after steelmaking, adding one or more of Ca, Mg and Zr, performing final deoxidation with Al wire, adding B, casting, homogenizing, rolling, relaxing, and cooling online. The obtained ship plate steel has such advantages as simple chemical compositions, simple process, and high heat input welding, and is suitable for producing ships.

The invention discloses an ultra low carbon hot rolling weathering steel with the yield strength of more than the grade of 550MPa and belongs to the manufacturing field of low alloy steel. The steel consists of the compositions with the following weight percentages: 0.01 to 0.05 percent of C, 0.10 to 0.40 percent of Si, 1.20 to 1.70 percent of Mn, equal to or less than 0.02 percent of P, equal to or less than 0.010 percent of S, 0.15 to 0.80 percent of Cu, 0.40 to 1.25 percent of Cr, 0.10 to 0.50 percent of Ni, equal to or less than 0.40 percent of Mo, 0.03 to 0.06 percent of Nb, equal to or less than 0.050 percent of Ti, 0.0010 to 0.0020 percent of Ca and the residual quantity of Fe and unavoidable impurities. The steel has good mechanical properties, the yield strength of equal to or more than 550MPa and the tensile strength of equal to or more than 650MPa which are both higher than that of traditional weathering steel. Besides, Ti is included in the compositions of the steel.

The invention was involved in the preparation method of thick hot rolled steel plate with ultra-fine grain. The alloy consist of 0.13-0.18%C, 0.12-0.30% Si, 0.50-0.70%Mn, is less than or equal to 0.020% P and is less than or equal to 0.015%S. The technology included the following steps: a) the heating-up temperature of continuous cast ingot was 1150-1200deg.C. b) The temperature of coarse crushing was 950-1000deg.C. c) The thickness of intermediate ingot after coarse crushing was 30-35mm. d) Inlet temperature of fine rolling was 880-920deg.C. e) Five or six groups frameworks were used in the rolling process of fine rolling. f) Three or four groups cooling water were input among the frameworks. g) Outlet temperature of fine rolling was 800-830deg.C. h) The reel temperature was 500-560deg.C. Chemical constitution of the hot rolling steel plate was simple and the cost was low. Ultra-fine grain hot rolling steel plate with 6.5-8.0mm thick was formed by controlling heating, coarse rolling and cooling. The steel plate had fine strength of extension, yield strength, extensibility and cold bending performance.

The invention discloses a high-strength high-plasticity cold-rolled steel plate for automobiles and a production method thereof. The high-strength high-plasticity cold-rolled steel plate comprises, by weight, 0.25-0.35% of C, 0.8-1.2% of Si, 2.0-2.5% of Mn, less than or equal to 0.02% of P, less than or equal to 0.005% of S, 0.5-1.0% of Al, 0.001-0.002% of B and the balance Fe and unavoidable impurities. The production method comprises smelting, continuous casting, hot rolling, pickling, cold rolling and continuous annealing. A continuous annealing heating temperature is in a range of 800-850 DEG C, thermal insulation time is in a range of 150-180s, a cooling rate is greater than or equal to 50 DEG C/s, a quenching temperature is in a range of 250-280 DEG C, a partition temperature is in a range of 350-400 DEG C, partition time is in a range of 300-600s and after partition, the product is cooled to a room temperature at a cooling rate greater than or equal to 50 DEG C/s.

The invention discloses a low-temperature sintered microwave medium ceramic material and a preparation method thereof. The material comprises the raw materials with the mol ratio: BaCO3:ZnO:TiO2:Q=1:x:(4+y):z, wherein x=0.01-0.5, y=0.01-0.5, z=0.01-0.1, and Q is glass combustion-supporting agent or BaCu (B2O5); the glass combustion-supporting agent comprises the raw materials with the mol ratio being Li2O:ZnO:B2O3=1:2:7 or Li2O: B2O3-1:2:7=3:2:5. The material can be obtained through traditional solid phase reaction synthesis. The material has lower sintering temperature (is capable of being fired at the temperature below 900 DEG C to form ceramics), is capable of being fired at the temperature of 900 DEG C to form ceramics and has better microwave dielectric property, wherein Epsilon r is equal to 25-35, Q*F is larger than 12,000, and Pi f is equal to -10ppm/DEG C to +30ppm/DEG C; in addition, the material has stable process and good repeatability and can be better co-fired and matched with a silver electrode. The low-temperature sintered microwave medium ceramic material can be used for manufacturing microwave devices, such as lower temperature co-fired ceramic (LLCC) systems, multilayer medium resonators, microwave antennae, wave filters, and the like.

The present invention discloses a steel plate for a building structure with yield strength of 460 MPa, and a manufacturing method thereof. Chemical components of the steel plate comprise, by weight, 0.05-0.10% of C, 0.2-0.3% of Si, 1.40-1.60% of Mn, 0.025-0.060% of Nb, 0.015-0.030% of Ti, 0.015-0.045% of Als, one selected from 0.2-0.4% of Cr, 0.10-0.30% of Mo and 0.0010-0.0020% of B, and the balance of Fe and other inevitable impurities, wherein the impurity elements are controlled, and comprise, by weight, less than or equal to 0.015% of P, less than or equal to 0.005% of S, less than or equal to 0.0040% of [N], and less than or equal to 0.0020% of [O]. The manufacturing method comprises that: the steel billet heating temperature is 1180-1220 DEG C; at the first phase, the rolling starting temperature is 1040-1080 DEG C, and the rolling finishing temperature is 950-1000 DEG C; at the second phase, the rolling starting temperature is 920-870 DEG C, the rolling finishing temperature is controlled to 800-850 DEG C, the amount of the rolling accumulation and deformation in the recrystallization area is more than 60%; after hot rolling, a temperature waiting treatment is performed, and then a water cooling treatment is performed, wherein the temperature waiting time is more than 15 seconds, the water cooling starting temperature is 680-750 DEG C, the cooling rate is 5-9 DEG C per second, and the self-tempering temperature is 450-620 DEG C. The steel plate of the present invention has characteristics of simple chemical components, carbon equivalent less than 0.40, yield ratio less than 0.80 and simple production process.

The invention relates to a quenched partitioned cold-rolled steel sheet with tensile strength of greater than 1180 MPa, and a production method thereof. During annealing heating, a steel plate is partially austenitized, so the enrichment of carbon in an austenite structure is realized; the two-phase-region slow cooling is employed for adjusting the volume fractions of an austenite phase and a ferrite phase, carbon is further enriched in the austenite; then rapid cooling at a cooling rate of 30-40 DEG C/s is carried out to partially convert the austenite into martensite; then heating and heat preservation are carried out; and finally, air-cooling to room temperature is carried out to obtain a multi-phase structure of ferrite, martensite and metastable austenite. The invention has the advantages that the production method is used for batch production of the quenched partitioned cold-rolled steel sheet with the tensile strength of greater than 1180 MPa; the quenched partitioned cold-rolled steel sheet has simple chemical components, no elemental Nb or only a small amount of elemental Nb is added except C, Si and Mn, so smelting cost is low, and process control is simple; two-phase-region heating is employed for continuous annealing; rapid cooling requires a low cooling speed and has low requirements on the equipment capacity of a continuous-annealing unit is low; and the production method is simple.

The invention discloses a chemical agglomeration promoter for removing fire coal fine particulate matters. The chemical agglomeration promoter is prepared from poly-dimethyl-diallyl-ammonium chloride, sorbitan fatty acid ester and water, wherein the mass percent of poly-dimethyl-diallyl-ammonium chloride is 0.001%-0.01%; and the mass percentage of the sorbitan fatty acid ester is 0.001%-0.1%. The invention also discloses an application method of the chemical agglomeration promoter. The chemical agglomeration promoter is capable of effectively promoting fine particles in a gas flue to agglomerate and flocculate to form large particles, and carrying out integral removal on heavy metals in a flue gas; the efficiency of a dust remover for removing fine particulate matters is improved; and the environment problem is effectively relieved.

The invention relates to a high-strength steel plate for a Q500GJE quenched and tempered building structure. The high-strength steel plate comprises the following chemical components: less than or equal to 0.14% of C, 0.20%-0.50% of Si, 1.10%-1.60% of Mn, less than or equal to 0.015% of P, less than or equal to 0.005% of S, less than or equal to 0.20% of Cr, less than or equal to 0.30% of Mo, lessthan or equal to 0.90% of Ni+Mo, less than or equal to 0.30% of Cu, 0.02%-0.04% of Al, less than or equal to 0.20% of V+Nb+Ti, less than or equal to 0.006% of N, and the balance of Fe and inevitableimpurity elements, wherein the carbon equivalent is less than or equal to 0.52%. The yield strength is 545-585 MPa, the tensile strength is 670-715 MPa, and the elongation is larger than or equal to 18.5%. A high-strength steel product for a building, with the yielding-to-tensile ratio less than or equal to 0.84, and the V-type impact energy higher than or equal to 110 J at -40 DEG C, is of a ferrite+pearlite+bainite structure, and the grain size is 8.5 levels or above. The comprehensive performance can completely meet GB/T 19879-2015 and the clients' requirements of steel plates for high-risebuildings.

The invention discloses an aluminium-silicon alloy welding wire and a preparation method thereof. According to the weight percent, the welding wire comprises 4.5-6.0% of silicon, 0.05-0.20% of titanium, 0.0001-0.0003% of beryllium, 0.01-0.06% of strontium and the balance aluminium. The preparation method comprises the steps of: adding the aluminium in a way of pure metal, and then adding other elements in a way of aluminium-based intermediate alloy; adding aluminium ingot and AeSi30 into a gas reflecting furnace, smelting and then adding slag beating agent for stirring and deslagging; then, adding AlTi10 and AlSr10; after 35-35min, adding refining agent for refining under the protection of argon; after refining, horizontally and continuously casting, and forming an aluminium alloy coil rod; and drawing the aluminium alloy coil rod for a plurality of times, and processing continuous disc-shaped welding wires with different specifications. Compared with the prior art, the invention has simple preparation method and easily controlled operation, and obviously reduces the phenomena of volatilization, oxidation and burning loss in the smelting process; and the obtained welding wire has excellent plastic processing performance and mechanical property.

The invention discloses a tensile strength-700MPa level easy-to-weld and low-internal-stress structural steel plate, prepared from the following chemical components according to mass percent: 0.04 to 0.09 percent of C, 0.20 to 0.48 percent of Si, 1.40 to 1.70 percent of Mn, not more than 0.30 percent of Cr, 0.020 to 0.045 percent of Nb, 0.012 to 0.020 percent of Ti, 0.005 to 0.030 percent of V, 0.020 to 0.038 percent of Als, 0.0012 to 0.0028 percent of B, less than 0.015 percent of P, less than 0.006 percent of S, not more than 0.0060 percent of [N], and the balance of Fe and inevitable impurities. The invention also provides a manufacturing method of the tensile strength-700MPa level easy-to-weld and low-internal-stress structural steel plate. The steel plate is simple in chemical component, and has excellent low-temperature toughness and a Pcm not more than 0.20 percent; the expensive alloying elements such as Mo, Cu and Ni are not added, and adding new equipment is also not needed, and the performance of the steel plate produced by controlled rolling and controlled cooling as well as stress removal processing can completely meet the relevant requirements of national standards.

The invention provides a chemical agglomeration promoter.The chemical agglomeration promoter is prepared from, by mass, 0.001%-0.01% of polyethyleneimine, 0.001%-0.1% of tween-80 and the balance water.The chemical agglomeration promoter is wide in raw material source, low in price, environmentally friendly, simple in chemical composition, simple and fast in synthesis process and free of harm to the environment; the agglomeration effect on fine particulate matter is significant, and the fine particulate matter emission of a coal-fired power plant can be reduced by 60% or above; besides, the chemical agglomeration promoter does not contain acid matter, and thus corrosion to flue equipment can be avoided; moreover, as most toxic heavy metals are gathered on fine particulate matter, heavy metals can be integrally removed with the chemical agglomeration promoter.

The invention discloses a regeneration method for an alkali metal poisoned denitration catalyst. After ash removal is carried out, the alkali metal poisoned denitration catalyst is dipped in an ammonium salt aqueous solution; and then a mixed solution is transferred to a microwave reactor to carry out microwave treatment, and filtered, dried and roasted to obtain a regenerated denitration catalyst. The regeneration method for the alkali metal poisoned denitration catalyst disclosed by the invention is simple to operate, short in processing time and better in removal effect for alkali metals on the surface of an inactivated denitration catalyst, and further can remove most of calcium compounds on the catalyst. Furthermore, active components of the denitration catalyst are not lost greatly in the regenerative process.

The invention relates to a high-toughness gas protective welding wire for large-linear energy welding low-alloy steel. The technical scheme is that the welding wire comprises the following chemical components in percentage by weight: 0.02-0.12 percent by weight of C, 1.00-2.50 percent by weight of Mn, 0.05-0.50 percent by weight of Si, 0.03-0.30 percent by weight of Ti, 0.001-0.004 percent by weight of B, less than or equal to 0.50 percent by weight of Cr, less than or equal to 0.5 percent by weight of Mo, less than or equal to 0.025 percent by weight of S, less than or equal to 0.025 percentby weight of P, 0.03-0.3 percent by weight of two or three kinds of Ca, Mg and Ba and the balance of Fe and inevitable impurities. The high-toughness gas protective welding wire is manufactured by thefollowing steps: carry out steel making on molten iron or scrap steel or the molten iron and the scrap steel by adopting a converter or an electric arc furnace, and then refining and adjusting molteniron components, casting into square billets, and then rolling into coil rods and cold-drawing into welding wires by conventional processes. The prepared welding material has good metal welding toughness and high tensile strength and is suitable for the welding of low-alloy high-strength steel under the condition of large-linear energy welding condition of 100-800kj/cm.

The invention discloses 590Mpa-grade dual-phase steel and a production method thereof. The 590Mpa-grade dual-phase steel comprises the following components in percentage by mass: less than or equal to 0.20% of C, less than or equal to 1.80% of Si, less than or equal to 2.00% of Mn, less than or equal to 0.050% of P, less than or equal to 0.015% of S, less than or equal to 0.10% of Nb, and less than or equal to 0.10% of Ti; and the production method comprises the steps of pretreatment of hot metal, smelting in a converter, fine adjustment of alloy, smelting in a refined-smelting ladle furnace, continuous casting and hot continuous rolling, wherein according to the hot continuous rolling, heating temperature is 1150-1250 DEG C, finish rolling temperature is 800-900 DEG C, the rolled steel is rapidly cooled to 650-750 DEG C, and air cooling is carried out for 6-11 seconds, the steel is rapidly cooled to a target coiling temperature, and the coiling temperature is 400-500 DEG C. According to the production method, the accuracy control and proportioning of ferrite and bainite are realized through appropriate components and process control, the strength difference of soft and hard of the material can be reduced, a soft and hard two-phase interface is eliminated, and the product has excellent strength-ductility and toughness matching property and good stretching and flanging property.

The invention discloses high-strength vanadium-containing high-manganese non-magnetic steel and a production method thereof. The steel comprises the following chemical components by weight: 0.15 to 0.25% of C, 0.2 to 0.4% of Si, 18 to 20% of Mn, no more than 0.015% of P, no more than 0.010% of S, 0.5 to 1.0% of V, with the balance being Fe and unavoidable impurities. The production method is carried out according to common technology for clean steel and comprises the following steps: electric furnace smelting; ladle furnace refining; vacuum treatment; bottom-pouring die casting; casting blank heating; rolling; tempering; and air cooling. The steel has yield strength of no less than 500 MPa, tensile strength of no less than 700 MPa, elongation percentage A of no less than 40% and relative permeability mu of no more than 1.05 and is applicable to manufacturing of equipment like transformers and generators. Meanwhile, the steel has the advantages of simple chemical components, low cost, easy production and operation, high production efficiency and substantial economic benefits and social benefits.

The invention discloses a hull structure steel with excellent welding performance and the manufacturing method thereof, which belongs to the manufacturing field of low-carbon low-alloy high strength steel, and hull structure steel with excellent welding performance can be manufactured through utilizing the invention. According to the percentage by weight, the chemical components of the steel comprise C 0.05-0.25%, Si 0.01-1.0%, Mn 0.50-2.0%, P<=0.020%, S<=0.010%, Ti 0.005-0.10%, Nb 0.005-0.10%, and others are Fe and unavoidable impurities, and the chemical components satisfy the following relationship: firstly, 0.015%<=C*Si<=0.075%, secondly, 0.095%<=C*Mn<=0.15%, thirdly, 0.0003%<=Nb*Ti<=0.0005%. The specific manufacturing method comprises the following steps: heating bar plates, roughly rolling, finish rolling, water cooling and air cooling. The steel has high welding performance and mechanical property, and does not contain alloy elements such as Ni, Mo and the like, the manufacturing process is easy to control, and the operation is simple.

The invention relates to a continuous manufacturing method of polypropylene fiber pulp (hereafter referred to as acrylic pulp). Apart from the excellent environment adaptability and the chemical reagents corrosion resistance of acrylic, the acrylic pulp also has the characteristics of a high degree of fibrillation and easy dispersion in aqueous phase, which can replace asbestos and used in friction, sealing materials, papermaking and other filed with a wide range of applications. The invention is in the use of two polyacrylonitrile polymers comprising the same monomer structure with different proportions for the blending wet spinning. In the solidification process, the micro-phase separation of the mixed slurry of the polymers occurs, thus the polypropylene fiber pulp, in which the appearance is the same as the general fiber bundles while the internal micro-fiber is very rich, is formed. After the bundle is cut off, the short chopped fibers and water are transmitted and pumped into a grinding equipment at the same time, which are in the continuous dispersion and grinding under a high shear rate to be in the formation of the polypropylene fiber pulp with a uniform structure, rich hairiness on the appearance and a high degree of fibrillation. The whole process is continuous and simple with low energy consumption.