Saw-tooth Wave Laboratory Jig is a new type of energy saving and high efficient gravity separation equipment and developed based on the traditional Sine Wave Jig. The difference between Saw-tooth Wave Jig and Sine Wave Jig is that the pulsation curve for jigging is saw-tooth wave shape, with speedy upward flow and slow downward flow. Advantages and Characteristics 1 High capacity 2 High concentration ratio and high recovery 3 Easy to install, operate and maintain 4 The pulsation curve is saw-tooth wave shape facilitate heavy mineral to settling 5 Saving water 30-40% than ordinary jig 6 The pulsation speed very easy adjusted by regulator 7 Can achieve a good result in processing such as placer gold, tungsten,iron, tin, hematite, copper, tantalum-niobium, titanium, manganese, barite, zirconium, chrome and gemstone etc Main Technical Parameters Model Hutch Diaphragm Feeding Size (mm) Makeup water (m3/t) Makeup water pressure (Mpa) Capacity (t/h) Power (kw) Dimensions (mm) Weight (Kg) Shape Area (m2) Stroke (mm) Frequency of stroke (r/min) JT0.57-1 Trapezoid 0.57 8.5 12 10 17 12-21 80-180
1.Materail: Stainless steel wire mesh 304/304L/316/316L copper ,brass ,phosphor-bronze ,and special alloys ,nickel wire mesh ,titanium wire mesh ,monel wire mesh ,molybdenum wire mesh ,tungsten wire mesh ,zirconium wire mesh ,tantalum wire mesh ,inconel wire mesh ,nichrome wire mesh . 2.Weave type: Plain weave, Twilled weave, Dutch weave Twilled Dutch etc. 3.Features:Excellent Resistance Against Acid, Alkali, Heat and Corrosion Wear-resisting 4.Uses:Mainly used for filtering and sieving, extensively used in petroleum, chemical industry, enviroment protection, mine, airspace, paper-making, electronic, metallurgy etc. 5.Packing details: 1. paper packing or plastic packing 2. carton packing 3. wooden packing or acrroding to customer requirements.
1. Aluminum oxide, 99.999%,2. Aluminum oxide, 99.9% 1-4 um, 3. Aluminum oxide, calcined, powder, a-phase, 99+%, 100-325 mesh, 4. Aluminum oxide, calcined, powder, α-phase, 150-325 mesh,5. Aluminum oxide, α-phase, calcined, 100-400 mesh, 99+% 6. Aluminum oxide, Corundum, a-phase, 100/325/500 mesh, 98-99%,7.Aluminum oxide, fused, 99.99%, 6-12 mesh, 8. Aluminum oxide, α -phase, fused, 200-325 mesh, 99%, 9. Aluminum oxide, granular, 4-8 mesh, 10. Aluminum oxide, powder, 99.99%, 11. Aluminum oxide, powder, 10 µm, 99.7%,12. Aluminum oxide, powder,30-50 nm, 99.999% 13. Rare earth doped Aluminum oxide 14. Zirconium oxide Toughened Aluminum oxide
Properties of Molybdenum carbide powder:  Molar Mass: 203.89 g/mol Density: 8.9 g/cm3 Melting Point: 2690°C Hardness: 1800 Knoop Vickers Hardness: 15.5-24.5 GPa Young's Modulus: 535 GPa Thermal Conductivity: 21.5 W/m·°C Mo2C introduction Molybdenum carbide, Chemical formula Mo2C,Molecular weight,203.88,Carbon content 5.89%, Density:8.90g/cm3,Melting point 2690ºC.It's a dark-grey colored metal powder with a compact hexagonal crystal. As a new functional material with very high fusing point and hardness, good thermal and mechanical stability and superb anticorrosive feature, it is applied widely in heat resistant, anti-frication and chemical corrosion resistant fields and so forth. With an electronic structure and catalytic properties it can also be extensively applied in organic and chemical industries. Mo2C  Application:  Widely used as a catalyzer in cycloalkane isomerization, unsaturated hydrocarbon hydrogenation, hydrodesulfurization,hydrodenitrification;  Used as raw material for super hard tools, wear-resistant material, heating material, and high - temperature structural materials.  Micro molybdenum carbide has diverse uses in traditional & high-tech industries like mechanics, electronics, aeronautics, metallurgy, chemistry, environment, etc.  Molybdenum carbide has high fusing point and hardness, good thermal stability, mechanical stability; excellent corrosion resistance and other characteristics can be used as coating material, and also addition material in hard metals and grain refine alloys. main products of LFJS 1.Powdered materials including Chromium Carbide Cr3C2 , Hafnium Carbide HfC,  Molybdenum Carbide Mo2C, Niobium Carbide NbC, Tantalum Carbide Tac, Titanium Carbide TiC, Vanadium Carbide VC, Zirconium Carbide ZrC, Titanium Carbide Nitrides Ti (C,N); (suitable for plasma coating, thermal spray coating, cold spray,additive in cutting tools,CVD,PCB,3D printing,abrasive materials,MIM,powder metallurgy,etc) 2.compound carbide powder: (Ta,Nb)C,(W,Ti)C , (W,Ta)C, (Ti,Ta)C , (W,Ti,Ta)C, (W,Ti,Ta.Nb)C,(W,Ti,Ta,Cr)C. 3.  Ti (C,N) based cermet rods/ inserts/blanks; (suitable for drilling and cutting tools, ,CNC tools, printed circuit board, drilling milling turning threading turning tools etc.Sinter-HIP process.) 4.  WC-CO tile cutting wheel.         Â
Chemicals Names Acetic Acid Acetone Adipic Acid AGS Acid (Dicarboxylic Acid Mixture) Aluminium Hydroxide Aluminiumoxide Ammonia Aniline Oil Antimicrobial additive (Ionpure) Antimony Pentoxide Colloidal Antimony Trioxide Concentrate Antimony Trioxide Masterbatches Antimony Trioxide Powder Benzene 1,2,3 Benzotriazole Bisphenol-A BPA Butyl Acetate 98/100 % Butyl Acrylate Butylated Hydroxytoluene Butyldiglycol Butylglycol Caprolactam Caustic Potash KOH Caustic Soda Flakes/Pearls Caustic Soda Liquid CSL Chrome Sulphate Solution, basic Colloidal Silica (Ludox) Copper Sulphate Cresole Cyclohexane Cyclohexanone Dibutyl Phthalate Dicyandiamide Diethanolamine DEA Diethylene Glycol DEG Diisobutyl Phthalate Diisononyl Phthalate Dimethylacetamide Dimethylformamide Dimethylterephthalate DMT Dioctylphthalate DOP Dipropylene Glycol DPG Ethanole Ethylacetate 98/100 % Ethylbenzene Ethylene Dichloride EDC 2-Ethylhexanol 2-EH Expandable Polystyrene EPS Flame Retardents Flame Retardents Masterbatche -halogen free Flocculants / Antifoam Agents Formaldehyde Formic Acid Fumed Silica ORISIL Glass Fibres Glycerine Glycolic Acid Hexamethylene Tetramine (Hexamine) High Density Polyethylene HD-PE Hydrochloric Acid Isobutanol IBA Isopropyl Alcohol Linear Alkyl Benzene LAB Linear Low Density Polyethylene LLD-PE Lithium Compounds Lithiumhydroxide LiOH Low Density Polyethylene LD-PE MDI Melamine Methanol pure 99,85 % Methanol techn. grade Methyl Methacrylate Monomer Mold Release Agents Monoethanolamine MEA Monoethylene Glycol MEG Monopropylene Glicol Mullite N-Butanol NBA Nigrosine Nonylphenol Ethoxylates NPE N-Paraffin Oilfield and Refinery Chemicals Oxalic Acid Diethylester DEO Para-Tertiary-Butylphenol PTBP Para-Toluene Sulphonic Acid Pentaerythritol Petroleum Jelly Phenol Phosphoric Acid Phthalic Acid Anhydride PA Polyethylene Glycol Polyethylene Terephthalat PET Polymethylmetacrylate PMMA Polyol Polypropylene PP Polystyrene PS Potassium Peroxomonosulphate (Oxone) Process Aid Agents Propylene (Polymer- Chemical- Refinery Grade) Purified Isophthalic Acid Purified Terephthalic Acid PVC PVC Thermostabilizers Sebacic Acid Silicone Oil Soda Ash Sodium Bicarbonate Sodium Hydrogen Sulphide Solution Sodium Hydrosulphite SHS Sodium Sulphate Sodium Sulphide Solution Sodium Tripolyphosphate Stannous Octoate Stearates (Ca, Zn, Ba, Al) Styrene Monomer Sulfamic Acid TDI 80(20) Tertiary Amyl Alcohol Tetrahydrofurane THF Titanium Dioxide TiO2 Toluene Tolyltriazole Triethylene Diamine TEDA Triethylene Glycol TEG Trimellitic Anhydride TMA Trimethylol Propane TMP Urea techn. Vinyl Acetate Monomer VAM Vinyl Chloride Monomer VCM Wax (Precision Investment Casting) Xylene (Solvent- Virgin Grade) Zirconium Products
The use of YGM high pressure suspension grinding mill: YGM high pressure suspension grinding mill is mainly used to grind mineral materials in metallurgy, building materials, chemical, mining and so on. It is specializing in producing fine powder of non-inflammable, non-explosive with Mohs hardness under seven, humidity in 6%, such as Quartz, long stone, calcite, talc, barite, fluorite, rare earth, marble, ceramic, aluminum vanadium soil, manganese mine, iron ore, copper mine, phosphorus ore, iron oxide red, zirconium British sand, slag, water slag, cement clinker, activated carbon, dolomite, granite, pomegranate zishi, iron oxide yellow, bean cake, fertilizer, compound fertilizer, fly ash, bituminous coal, coking coal, lignite, dangling beauty sand, oxidation chromium green, gold, red mud, clay, kaolin, Coke, coal gangue, China clay, blue spar , Fluorspar, bentonite, maifan rock rhyolite, pyrophyllite, purple sandstone, shale, green muddy rocks, Diego rock, basaltic stone, plaster, graphite and silicon carbide etc. Technical features of YGM high pressure suspension grinding mill: 1. High-efficiency: the full use of the jet-flow and optimized impeller structure can greatly improve the crushing and grading efficiency, thus greatly improving the production. 2. High grading degree: with the frequency conversion and grading adjustment technology, the YGM high pressure suspension grinding mill have stable and complete grading system and the special sealing measure ,which can efficiently prevent the leaking of the fine particles .And the particle size can reach 5006000monyh and the thinnest can reach 12000monyh. 3. Low wearing: the crushing wearing parts and the impeller of the Raymond mill mainly adopts German technology. And with the optimized design of the inner cavity structure and anti-abrasion and allergy materials, the YGM high pressure suspension grinding mill has made the lowest wearing parts and the highest purity. YGM high pressure suspension grinding mill working principle: Firstly, raw material is crushed by jaw crusher to the size required, and then the crushed materials are elevated into a hopper from which the material is transported through the electro-magnetic vibrating feeder evenly and continuously into the grinding chamber for powder-processing. The rollers of Raymond mill oscillate outward to press the ring because of the centrifugal force and the shovel scoops up the materials, send to the middle between ring and roller to accomplish the grind. After this, the ground stuff is carried by the air from the blower into the separator for screening. The fine powers are blow into the cyclone collector and are poured out through the output-powder valve as the final products and the rough stuff after the screening will be recycled back into the grinding chamber for regrinding. The airflow system is closely sealed up and circulated under condition of negative and positive pressure.
White Fused Alumina (white corundum) WFA Abrasive blasting media is made of 99% aluminum oxide powder as raw material, which is refined and crystallized by electric melting (thus white corundum is also called fused alumina and white fused alumina). The white corundum sand produced by our factory has high purity, low impurities, low sodium content, uniform particles and high whiteness.
The CYANSKY K3 V2.0 is a long-range LED flashlight specially designed for tactical uses. Equipped with Luminus' newest SFT-40-W LED, the flashlight features a maximum brightness of 2,000 lumens and a max of 700 meters beam throw. It is the longest-range flashlight with a 40mm head diameter flashlight. It uses a classic tactical attack shell design and is equipped with high-hardness zirconium beads that can easily shatter glass and perform tactical missions. Alternatively, the unique gold-plated springs are designed against violent impacts during shooting, and optional gun mounts or remote switches can be used to meet tactical requirements in different scenarios.
Titanium crystal 128, bermocoll 7000 meg, texanol , cobalt /drier, lead 36% calcium octate 10%, zirconium drier 18% meko (anti skin), mergal k14, styrene 248, styrene, defoamer� 7035, xylene, aerosil r 972 dbp, tergitol np 9/10, red oxide a 130 yellow oxide � 920 bermocol 481 shmp 68% bestgel red 130 toluene talc powder �?� cf 900 violet�?� paste 23 hydro carbon resin orange chrome pigment lemon chrome pigment red oxide powder yellow oxide, sumica 4153, sumica 4144 maroon pearl pigments (sumica) copper pearl pigment linseed oil (100% ) linseed oil (30%), tpa, dbp, byk 1615, soya lecithin, berium sulphate, orange 960, xylene acetone, dioctyl phthalate (dop), magnesium oxide, epoxies, alkyd resin white spirit, acetone, mek (methyl ethyl ketone), butyl acetate, ethyl acetate, meg ( mono ethylene glycol), ethyl glycol, glycerin, methanol, ethanol, iso butanol, ipa, iso propanol glycol, methoxy propanol, mono propelyne glycol (mpg).
Warm greetings from Modkha Marine Sdn. Bhd., Malaysia. We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (TT). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Semi Plastic Ball Clay Specification: DRY MOR (kg/cm2) -> 37.73 Fired MOR (Kg/cm2) -> 292.66 Green MOR (Kg/cm2) -> 17.34 Fired Shrinkage (%) (@1200°C) -> 9.7 Dry Shrinkage (%) -> -0.1 Water Absorption (%) (@1200°C) -> 7.3 FlRED COLOUR L Value -> 85.70 a Value -> 2.2 b Value -> 10.4 WI=Whiteness index -> 17.7 Fire resistance -> 1580 °C CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) -> 47.63 Aluminium as A2O3 (%) -> 34.88 Titanium as TiO2 (%) -> 0.77 Iron as Fe2O3 (%) -> 1.29 Sodium as Na2O (%) -> 0.06 Potassium as K2O (%) -> 1.65 Calcium as Cao (%) -> 0.14 Magnesium as MgO (%) -> 0.20 Phosphorus as P2O5 (%) -> 0.16 Manganese as MnO (%) -> 0.02 Chromium as Cr2O3 (%) -> 0.01 Zirconium as ZrO2 (%) -> 0.03 Hafnium as HfO2 (%) -> 0.01 Sulphur as SO3 (%) -> 0.01 Loss on Ignition (%) (@1025°C) -> 12.4 MOISTURE CONTENT (%) -> 28 - 32
We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (T/T). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Plastic Ball Clay Specification: DILATOMETRIC ANALYSIS Linear Thermal Expansion, �?± x 10-7 (°C-1) [50°C-500°C]  63.8 RESIDUE CONTENT Residue Content on 63m (w/w %)  1.7 Residue Content on 106m (w/w %)  1.6 Fired Shrinkage (%) (@1200°C)  8.5 Water Absorption (%) (@1200°C)  2.6 DRY MOR (kg/cm2)  57 FlRED COLOUR L Value  71.3 a Value  4.4 b Value  21.2 CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%)  60.23 Aluminium as A2O3 (%)  25.26 Titanium as TiO2 (%)  1.00 Iron as Fe2O3 (%)  1.94 Sodium as Na2O (%)  0.04 Potassium as K2O (%)  1.70 Calcium as Cao (%)  0.01 Magnesium as MgO (%)  0.60 Phosphorus as P2O5 (%)  0.03 Manganese as MnO (%)  0.01 Chromium as Cr2O3 (%)  0.01 Zirconium as ZrO2 (%)  0.04 Hafnium as HfO2 (%)  0.00 Sulphur as SO3 (%)  0.00 Strontium as SrO (%)  0.01 Loss on Ignition (%) (@1025°C)  9.1 MOISTURE CONTENT (%)  28 - 32
We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (T/T). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Plastic Ball Clay Specification: DILATOMETRIC ANALYSIS Linear Thermal Expansion, ± x 10-7 ( C-1) [50 C-500 C] - 63.8 RESIDUE CONTENT Residue Content on 63¼m (w/w %) - 1.7 Residue Content on 106¼m (w/w %) - 1.6 Fired Shrinkage (%) (@1200 C) -8.5 Water Absorption (%) (@1200 C) - 2.6 DRY MOR (kg/cm2) - 57 FlRED COLOUR L Value - 71.3 a Value - 4.4 b Value - 21.2 CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) 60.23 Aluminium as A2O3 (%) 25.26 Titanium as TiO2 (%) 1.00 Iron as Fe2O3 (%) 1.94 Sodium as Na2O (%) 0.04 Potassium as K2O (%) 1.70 Calcium as Cao (%)  0.01 Magnesium as MgO (%)  0.60 Phosphorus as P2O5 (%)  0.03 Manganese as MnO (%) 0.01 Chromium as Cr2O3 (%) 0.01 Zirconium as ZrO2 (%)  0.04 Hafnium as HfO2 (%)  0.00 Sulphur as SO3 (%)  0.00 Strontium as SrO (%) 0.01 Loss on Ignition (%) (@1025 C) 9.1 MOISTURE CONTENT (%)  28 32
Warm greetings from Modkha Marine Sdn. Bhd., Malaysia. We, Modkha Marine Sdn. Bhd. has more than 7 yearsâ?? experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (TT). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Plastic Ball Clay Specification: DILATOMETRIC ANALYSIS Linear Thermal Expansion, �± x 10-7 (�°C-1) [50�°C-500�°C] --> 63.8 RESIDUE CONTENT Residue Content on 63�¼m (w/w %) --> 1.7 Residue Content on 106�¼m (w/w %) --> 1.6 Fired Shrinkage (%) (@1200�°C) --> 8.5 Water Absorption (%) (@1200�°C) --> 2.6 DRY MOR (kg/cm2) --> 57 FlRED COLOUR L Value --> 71.3 a Value --> 4.4 b Value --> 21.2 CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) --> 60.23 Aluminium as A2O3 (%) --> 25.26 Titanium as TiO2 (%) --> 1.00 Iron as Fe2O3 (%) --> 1.94 Sodium as Na2O (%) --> 0.04 Potassium as K2O (%) --> 1.70 Calcium as Cao (%) --> 0.01 Magnesium as MgO (%) --> 0.60 Phosphorus as P2O5 (%) --> 0.03 Manganese as MnO (%) --> 0.01 Chromium as Cr2O3 (%) --> 0.01 Zirconium as ZrO2 (%) --> 0.04 Hafnium as HfO2 (%) --> 0.00 Sulphur as SO3 (%) --> 0.00 Strontium as SrO (%) --> 0.01 Loss on Ignition (%) (@1025C) --> 9.1 MOISTURE CONTENT (%) --> 28 32
Warm greetings from Modkha Marine Sdn. Bhd., Malaysia. We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (TT). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Semi Plastic Ball Clay Specification: DRY MOR (kg/cm2) -> 37.73 Fired MOR (Kg/cm2) -> 292.66 Green MOR (Kg/cm2) -> 17.34 Fired Shrinkage (%) (@1200�°C) -> 9.7 Dry Shrinkage (%) -> -0.1 Water Absorption (%) (@1200�°C) -> 7.3 FlRED COLOUR L Value -> 85.70 a Value -> 2.2 b Value -> 10.4 WI=Whiteness index -> 17.7 Fire resistance� -> 1580 �°C CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) -> 47.63 Aluminium as A2O3 (%) -> 34.88 Titanium as TiO2 (%) -> 0.77 Iron as Fe2O3 (%) -> 1.29 Sodium as Na2O (%) -> 0.06 Potassium as K2O (%) -> 1.65 Calcium as Cao (%) -> 0.14 Magnesium as MgO (%) -> 0.20 Phosphorus as P2O5 (%) -> 0.16 Manganese as MnO (%) -> 0.02 Chromium as Cr2O3 (%) -> 0.01 Zirconium as ZrO2 (%) -> 0.03 Hafnium as HfO2 (%) -> 0.01 Sulphur as SO3 (%) -> 0.01 Loss on Ignition (%) (@1025�°C) -> 12.4 MOISTURE CONTENT (%) -> 28 - 32
Warm greetings from Modkha Marine Sdn. Bhd., Malaysia. We, Modkha Marine Sdn. Bhd. has more than 7 years experience as a global supplier of high-quality ball clay. We are the direct supplier, hence buying from us means you will have great cost-saving for your material sourcing. To give you a brief idea, our production capacity for a month is roughly around 50,000 MT for raw ball clay and our main exports were to Asian countries as well as the European region. Our payment terms are Letter of Credit (L/C) and Telegraphic Transfer (TT). We also provide a variety of delivery terms, including FOB, CFR and CIF. For packaging, we prefer loose bulk. Below are our Semi Plastic Ball Clay Specification: DRY MOR (kg/cm2) -> 37.73 Fired MOR (Kg/cm2) -> 292.66 Green MOR (Kg/cm2) -> 17.34 Fired Shrinkage (%) (@1200C) -> 9.7 Dry Shrinkage (%) -> -0.1 Water Absorption (%) (@1200C) -> 7.3 FlRED COLOUR L Value -> 85.70 a Value -> 2.2 b Value -> 10.4 WI=Whiteness index -> 17.7 Fire resistance� -> 1580 �°C CHEMICAL ANALYSIS USIING XRF Silica as SiO2 (%) -> 47.63 Aluminium as A2O3 (%) -> 34.88 Titanium as TiO2 (%) -> 0.77 Iron as Fe2O3 (%) -> 1.29 Sodium as Na2O (%) -> 0.06 Potassium as K2O (%) -> 1.65 Calcium as Cao (%) -> 0.14 Magnesium as MgO (%) -> 0.20 Phosphorus as P2O5 (%) -> 0.16 Manganese as MnO (%) -> 0.02 Chromium as Cr2O3 (%) -> 0.01 Zirconium as ZrO2 (%) -> 0.03 Hafnium as HfO2 (%) -> 0.01 Sulphur as SO3 (%) -> 0.01 Loss on Ignition (%) (@1025 C) -> 12.4 MOISTURE CONTENT (%) -> 28 - 32
Tin ingot supplier Product ingredients: Sn99.99 Working temperature: 265-275 Packing: net weight 25±1.5kg per ingot, bundled with galvanized steel strips, 40 ingots per bundle, net weight 1000±30kg Specifications: 400cmX100cmX100cm Origin: China Tin Ingot Applicationï¼? (1) For the manufacture of tin-plated iron (tinplate); (2) Used to make brazing solder; (3) The electronic industry is used for tin plating on the surface of wires and electronic components and lead parts (4) For the manufacture of tin bronze. Tin is malleable and has good plasticity. Pure tin reacts slowly with weak organic acids and has good corrosion resistance. Even if it is corroded, the resulting compounds are generally non-toxic. Therefore, a large number of tinplates are produced by hot-dip tinning, which are used in anti-corrosion or food industry. Tin-based bearing alloy (Babbitt) is an excellent wear-resistant material, it has a low coefficient of friction and good toughness, thermal conductivity and corrosion resistance. Tin can also be configured into fusible alloys, solder, printed alloys, tin bronze, and tin brass. Tin-containing zirconium-based alloys are used as nuclear fuel packaging materials in the atomic energy industry; tin-containing titanium-based alloys are used in aviation, shipbuilding, atomic energy, chemical and nuclear medical equipment and other industrial sectors. Tin-niobium intermetallic compounds can be used as superconductors. The traditional Chinese medicine compounds of tin are tin dioxide, tin tetrachloride and organic compounds of tin, which are respectively used as raw materials for ceramic glazes, coal dyes for printing and dyeing silk fabrics, as well as insecticides, antifouling agents, wood preservatives and flame arresters. r
Lakes mono-metal liner has its inner bore quenched with the carburized layer thickness as 1.5 to 1.8mm to achieve hardness of 58 to 60 HRC. The liner features high hardness, great corrosion resistance, no deformation and high surface finish. It can be applied on Gardner Denver duplex pumps such as FY-FXD7-1/2X10 series, FC-FXX5X8 series, FD-FXX5X10 series and FG-FXG5X6 series, etc. The outer sleeve of Rundongs bi-metal liner is made of forged carbon steel and features great wear resistance, while the inner sleeve is made of high-chromium alloy cast iron and features great resistance to wear and corrosion. Through thermal treatment, the inner sleeve reaches hardness of 61 to 64 HRC. In general, the service life of our bi-metal liner is 800 hours. The liner has won a great reputation among many oil fields. Our ceramic liner is made of toughening zirconium oxide with fracture toughness (K) ranging from 10 to 15 Mpa, which is about 10 times of that of traditional ceramics. In addition, the liners flexural strength() is ranging from 600 to 800 Mpa, the Weibull modulus is 18m and the elasticity modulus (E) is 200Gpa. The ceramic liner features excellent resistance to wear and corrosion. Its average service life is longer than 3,000 hours, which significantly reduces the cost of well drilling.
Lakes mono-metal liner has its inner bore quenched with the carburized layer thickness as 1.5 to 1.8mm to achieve hardness of 58 to 60 HRC. The liner features high hardness, great corrosion resistance, no deformation and high surface finish. It can be applied on Gardner Denver duplex pumps such as FY-FXD7-1/2X10 series, FC-FXX5X8 series, FD-FXX5X10 series and FG-FXG5X6 series, etc. The outer sleeve of Rundongâ??s bi-metal liner is made of forged carbon steel and features great wear resistance, while the inner sleeve is made of high-chromium alloy cast iron and features great resistance to wear and corrosion. Through thermal treatment, the inner sleeve reaches hardness of 61 to 64 HRC. In general, the service life of our bi-metal liner is 800 hours. The liner has won a great reputation among many oil fields. Our ceramic liner is made of toughening zirconium oxide with fracture toughness (K) ranging from 10 to 15 Mpa, which is about 10 times of that of traditional ceramics. In addition, the liners flexural strength() is ranging from 600 to 800 Mpa, the Weibull modulus is 18m and the elasticity modulus (E) is 200Gpa. The ceramic liner features excellent resistance to wear and corrosion. Its average service life is longer than 3,000 hours, which significantly reduces the cost of well drilling.
Mono-Metal Liner Lake mono-metal liner has its inner bore quenched with the carburized layer thickness as 1.5 to 1.8mm to achieve hardness of 58 to 60 HRC. The liner features high hardness, great corrosion resistance, no deformation and high surface finish. It can be applied on Gardner Denver duplex pumps such as FY-FXD7-1/2X10 series, FC-FXX5X8 series, FD-FXX5X10 series and FG-FXG5X6 series, etc. Bi-Metal Liner The outer sleeve of Rundongs bi-metal liner is made of forged carbon steel and features great wear resistance, while the inner sleeve is made of high-chromium alloy cast iron and features great resistance to wear and corrosion. Through thermal treatment, the inner sleeve reaches hardness of 61 to 64 HRC. In general, the service life of our bi-metal liner is 800 hours. The liner has won a great reputation among many oil fields. Ceramic Liner Our ceramic liner is made of toughening zirconium oxide with fracture toughness (K) ranging from 10 to 15 Mpa, which is about 10 times of that of traditional ceramics. In addition, the linerâ??s flexural strength(�?) is ranging from 600 to 800 Mpa, the Weibull modulus is 18m and the elasticity modulus (E) is 200Gpa. The ceramic liner features excellent resistance to wear and corrosion. Its average service life is longer than 3,000 hours, which significantly reduces the cost of well drilling.
Mono-Metal Liner Lakeâ??s mono-metal liner has its inner bore quenched with the carburized layer thickness as 1.5 to 1.8mm to achieve hardness of 58 to 60 HRC. The liner features high hardness, great corrosion resistance, no deformation and high surface finish. It can be applied on Gardner Denver duplex pumps such as FY-FXD7-1/2X10 series, FC-FXX5X8 series, FD-FXX5X10 series and FG-FXG5X6 series, etc. Bi-Metal Liner The outer sleeve of Rundongâ??s bi-metal liner is made of forged carbon steel and features great wear resistance, while the inner sleeve is made of high-chromium alloy cast iron and features great resistance to wear and corrosion. Through thermal treatment, the inner sleeve reaches hardness of 61 to 64 HRC. In general, the service life of our bi-metal liner is 800 hours. The liner has won a great reputation among many oil fields. Ceramic Liner Our ceramic liner is made of toughening zirconium oxide with fracture toughness (K) ranging from 10 to 15 Mpa, which is about 10 times of that of traditional ceramics. In addition, the linerâ??s flexural strength(�?) is ranging from 600 to 800 Mpa, the Weibull modulus is 18m and the elasticity modulus (E) is 200Gpa. The ceramic liner features excellent resistance to wear and corrosion. Its average service life is longer than 3,000 hours, which significantly reduces the cost of well drilling.