Questions & Answers
Alumel wire is made from: Ni-Mn-Al-Si.
Babbitt ingots are made from: BM, BT, BN, BK2, BKA, BS, BS6, B6, B16, B91, B89, B88, B83.
Bronze powder is made from: BrOF8-0.3, BrOF6.5-0.15, BrOF7-0.2, BrKMts10-2, BrKMts3-1, BrA5, BrAZhMts10-3-1.5, BrAZhN10-4-4, BrAZh9-4, BrOTsS3-12-5, BrOTsS4-4-17, BrOTsS5-5-5, BrOF8-0.3, BrOF10-1, BrOF7-0.2, BrOF6.5-0.15.
Bismuth ingots are made from: Bi-Tech, Bi-995, Bi-999, Bi-9995, Bi-9999.
Ferrovanadium is made from: FVd80, FVd65, FVd60, FVd50, FVd40, FVd35.
Tungsten wire is made from: VTs, VI, VL, VT, VRN, VA-1, VA.
Tungsten electrodes are made from: WTh-La, WLa-Ce, WZ8, WY20, WY10, WC20, WC10, WL20, WL15, WL10, WT40, WT30, WT20, WT10, WP.
Tungsten wheels are made from: WY20, WY10, WC20, WC10, WT30, WT20, WT10, WL20, VA-1, VA.
Tungsten sheets are made from: WL15, WT20, WY20, WY10, VA, WC20, WC10, VA-1, WT30, WT10, WL20, WL10.
Tungsten powders are made from: Nano-W, W-2, W-1, PVR, PVT, PVN, VP-4, VP-3, VP-2, VP-1.
Gallium is made from: Ga 7N, Ga 6N, Ga 5N, Ga 4N, Gl-2, Gl-1, Gl-0.
Cadmium ingots are made from: Kd3, Kd2, Kd1, Kd0.
Cobalt ingots are made from: K3, K2, K1, K0.
Constantan wire is made from: MNMts 40-1.2, MNMts 45-0.5, MNMts 40-1, MNMts 40-1.5.
Kopel wire is made from: MNMts 44-1, MNMts 44-0.5, MNMts 43-0.5.
The master alloy is made from: TiAl, NiCr, CoCr, CoAl, NiMo, NiB, NiMg15, CuSi3, CuMn12, CuP10, FeTi30, FeW70, FeMo60, FeV50, FeCr60-70, FeSi75, FeMn78, AlZr5, AlSi20, AlMn10, AlCu50, AlSr10, AlB3, AlTi10, AlTi5B1.
Brass powder is made from: LZhMts59-1-1, LAZh60-1-1, LS59-1, L80, L70, L68, L63.
Copper powder is made from: M3, M1p, M2, M00, M1, M0.
Copper phosphor is made from: CuP10, CuP8, CuP7, CuP6, CuP5, CuP4, CuP3, CuP2, and CuP1.
Magnesium ingots are made from: AZ91, ZK60, AZ31, ML10, ML5, MA8, MA5, MA2, MA1, Mg96, Mg95, and Mg90.
Manganin wire is made from: MNMtsAZh, MNMts 3-12-0.3, and MNMts 3-12.
Lump manganese is made from: Mr2, Mr00, Mr1, Mr0, FMn90, FMn88, and FMn78.
Cupronickel strips are made from: MNC18-20, MNZh5-1, MNZhMts30-0.8-1, MNZhMts30-1-1, MN25, and MN19.
Molybdenum tape is made from: MoHfC, MoW, MoRe, MLa, TZM, Mo 4N, Mo-99.9, Mo-99.95, Mo1, and MC.
Molybdenum foil is made from: Mo1, MC, TZM, MoHfC, MoW, MoRe, Mo-La, and Mo 99.95.
Molybdenum wire is made from: Mo-Y, Mo-La, TZM, CM, MC, MK, MD, MRN, MR47VI, MR47VP, and MC.
Molybdenum electrodes are made from: MY, ML, Mo-La, TZM, MK, MD, MP47VP, CM-1, MC, Mo1.
Molybdenum wheels are made from: MoLa, ML, TZM, Mo-1, MC, MT, M-MP, CM-2A, CM-1, MP47, MP47VP, MK, MC.
Molybdenum sheets are made from: Mo-I, Mo-I, Mo-La, TZM, MK, M-MP, MP47VP, CM-1, MCVP, MC.
Nickel sheets are made from: NP2, NP1, Nickel 200, Nickel 201.
Nickel anodes are made from: H3, H2, H1.
Niobium foil is made from: Nb-Zr, Nb2, Nb1.
Niobium wire is made from: Nb2, Nb-1Zr, Nb1.
Niobium wheels are made from: R04251, R04210, R04200, Nb2, Nb1.
Niobium sheets are made from: WC-3009, P353M, FS-85, C-103, Nb-10W, Nb-1Zr, BN2, NbCu, Nb2, Nb1.
Nichrome wire is made from: EI435, GS SY, NiCr 60/15, NiCr 80/20, Cr15Ni60, Cr20Ni80, Kh15N60-N, Kh20N80-N, Kh15N60, Kh20N80.
Nichrome tape is made from: GS23-5, EI435, NiCr 60/15, Kh15N60-N, Kh20N80-N, KhN70U, Kh15N60, Kh20N80, KhN60U, NiCr 80/20.
Tin ingots are made from: POSSu, POS-61, POS-40, POS-30, O4, O3, O2, O1pch, O1.
Welding powders are made from: Cr3C2-NiCr, WC-Ni, WC-Co, PR-V3K, PR-Kh12, PR-V3K, PR-N70Kh17S4R4, PR-N80Kh13, PG-KhN80SR, PG-SR5, PG-SR4, PG-SR3, PG-SR2.
Precision tape is made from: 68NMP, 50KF, 49K2FA, 47NKhR, 32NKD, 29NK-VI, 29NK, YUNDK35T5, YUNDK24, 27KH, 52KF, EP863, EI702, 42NKhTYuA, 44NKhTYu, 36NKhTYu, 6KhV2S, Kh15N60, Kh20N80, 47NKh, 47ND, 42N, 36NKhTYu, 36N, 32NKD, 84NKh, 81NMA, 80NKhS, 79NM, 50NP, 50N, 45N.
Solders are made from: Mg-2, Mg-1, VPr-4, VPr-1, PNK-2, PNK-0, P425A, P250A, 34A, PMC-54, PMC-42, PMC-36, LK62-0.5, L-62, PMF-6-4-0.03, PMF-9, PMF-7, PSR-72, PSR-65, PSR-45, PSR-40, PSR-25, PSR-12, PSR-2, SnZn9, SnBi58, SnCu0.7, SnAg3.5, Sn99Cu1, SAC387, SAC305, POS-90, POS-63, POS-61, POS-50, POS-40, POS-30, POS-10, POS-18.
Antimony is made from: SU3, SU2, SU1, SU0, SU00.
Tantalum foil is made from: TaNb20, TaNb3, Ta-10W, Ta-2.5W, high-frequency current, Ta2, Ta1.
Tantalum wire is made from: TaNb20, Ta2, TaNb3, Ta-10W, Ta1, Ta-2.5W, high-frequency current.
Ferroalloys are made from: FSMg9, FSMg7, FSKh15, FSKh10, FF25, FF18, FF10, FB20, FB10, FNb60, FNb50, FTi70, FTi35, FTi25, FV80, FV70, FMo65, FMo60, FMo50, FVd80, FVd50, FVd35, FKh850, FKh800, FKh100, FKh010, FKh001, MnS25, MnS17, FMn88, FMn78, FMn70, FS90, FS75, FS65, FS45, FS25, FS20.
Fechral tape is made from: 0Kh27U5T, 0Kh23U5, Kh15N60U3, Kh15U5, Kh27U5T, Kh23U5T, Kh23U5.
Fechral wire is made from: FeCrAl 145, CrAl4, FCH1, GS SY, GS 23-5, Kh15N60U3, 0Kh27U5T, 0Kh23U5, Kh15U5, Kh27U5T, Kh23U5T, Kh23U5.
Lump chromium is made from: MTX97, MTX95, EKh98, EKh99, Kh90, Kh92, Kh95, Kh97, Kh98, Kh99.
Chromel wire is made from: Cr15Ni60, Cr20Ni80, KhN78T, KhN70U, Kh15N60, Kh20N80. NiCr-C, NiCr-A.
Zinc anodes are made from: Ts3, Ts2, Ts1, Ts0. Zinc circles are made from: ZrNb2.5, Zr-1Nb, Zr-2.5Nb, E635, E125, E110, Zr 705, Zr 704, Zr 702, Zr 700, Tsr1, Tsr0.
The main GOST standard for alumel, constantan, chromel, and copel wire:
GOST 1790-2016 - specifications for wire made of alumel, constantan, chromel T, and copel alloys for thermocouples and thermoelectrodes. This standard establishes quality control, wire requirements, application areas, marking, thermoelectric characteristics, mechanical properties, accuracy classes, and wire diameters.
The main GOST standard for babbitt ingots:
GOST 1320-74 - specifications for lead and tin babbitts. This standard defines the shape and weight of ingots, marking, packaging, transportation and storage, acceptance rules, inspection methods, surface quality requirements, chemical composition, and babbitt grades.
The main GOST standard for bronze powders:
GOST 614-97 - specifications for bronze powders. The standard establishes the physical and technological properties, particle size distribution, chemical composition, grades of bronze powders, packaging, labeling, and storage requirements, acceptance rules, and testing methods.
The main GOST for bismuth ingots:
GOST 10928-90 - Technical specifications for bismuth. This standard defines chemical composition requirements, bismuth grades, quality control methods, delivery form requirements, acceptance rules, storage, packaging, labeling, and transportation requirements.
The main GOST for ferrovanadium:
GOST 27130-94 - Technical requirements and delivery conditions for ferrovanadium. This standard establishes material size requirements, inspection methods, ferrovanadium grades, product delivery conditions, packaging, labeling, transportation, and storage requirements, inspection methods, acceptance rules, and chemical composition requirements.
The main GOST standard for tungsten wire:
GOST 18903–73 - Tungsten wire grades. This standard regulates: the areas of application of various types of wire, classification by tungsten grades, section weight requirements, permissible diameter deviations, and the dimensions and grade of tungsten wire.
The main GOST standard for tungsten electrodes:
GOST 23949–80 - Technical conditions for non-consumable tungsten welding electrodes. This standard defines: packaging, marking, and transportation requirements, acceptance rules, quality control methods, surface requirements, dimensions and tolerances, chemical composition, and grades of tungsten electrodes.
The main technical specifications for tungsten wheels:
TU 11-77 - Technical conditions for tungsten rods. These specifications establish: acceptance and delivery rules, quality control methods, tungsten rod grades, surface requirements, chemical composition, mechanical properties, dimensions, and tolerances.
The main technical specifications for tungsten sheets are:
TU 48-19-106-91 - technical specifications for tungsten plates and sheets. These specifications define acceptance and testing rules, mechanical properties, surface quality, tolerances, sheet dimensions, and material grades.
The main technical specifications for tungsten powders are:
TU 48-19-72-92 - tungsten powder. These specifications regulate the physicochemical properties, acceptance rules, particle size distribution, packaging and storage, quality control methods, chemical composition requirements, and grades of tungsten powder.
The main GOST standard for gallium is:
GOST 12797–77 - technical specifications for gallium. This standard establishes requirements for packaging, labeling, transportation, and storage, acceptance rules, chemical composition requirements, grades of technical gallium, control methods, surface quality requirements, and delivery methods.
The main GOST standard for cadmium ingots is:
GOST 1467-93 - technical specifications for cadmium. This standard defines requirements for delivery form and chemical composition, cadmium grades, transportation and storage conditions, safety requirements, acceptance rules, and inspection methods.
The main GOST standard for cobalt ingots is:
GOST 123-2008 - technical specifications for cobalt. This standard regulates: analysis methods, manufacturer's warranties, packaging requirements, transportation, and storage, cobalt metallic grades, analysis methods, ingot manufacturing requirements, and chemical composition requirements.
The main GOST standard for constantan wire is:
GOST 5307-77 - technical specifications for copper-nickel alloy constantan wire. This standard establishes: storage and packaging conditions, testing methods, acceptance rules, surface requirements, electrical characteristics, constantan alloy grades, mechanical properties, chemical composition requirements, and wire assortment.
The main GOST standard for aluminum master alloys:
GOST 53777–2010 - technical specifications for aluminum-based master alloys. This standard defines: delivery form, chemical composition requirements, grades of aluminum master alloys, packaging requirements, labeling, transportation and storage, acceptance rules, inspection methods, product dimensions and weight.
The main GOST standard for brass powders:
GOST 15527-2004 - grades of pressure-treated copper-zinc alloys. This standard regulates: inspection methods, delivery conditions, chemical and particle size composition, physical properties, areas of application, labeling, packaging, quality requirements, and production technology.
Main GOST for copper powders:
GOST 9722-97 - Technical specifications for copper powders. This standard regulates: chemical and particle size composition, powder grades, packaging and labeling, testing methods, acceptance rules, and physical properties.
Main GOST for copper phosphorus:
GOST 4515–93 - Technical specifications for copper-phosphorus master alloys. This standard establishes: delivery form, manufacturing requirements, chemical composition, grades of copper-phosphorus master alloys, packaging, labeling, transportation, and storage requirements, acceptance rules, and testing methods.
Main GOST for magnesium ingots:
GOST 804–93 - Technical specifications for primary magnesium ingots. The standard defines transportation and storage conditions, packaging requirements, labeling, chemical composition, ingot shape and size, inspection methods, acceptance rules, and grades of primary magnesium.
The main GOST for manganin wire:
GOST 10155–75 - Specifications for wire made of precision alloys with high electrical resistance. This standard regulates electrical characteristics, mechanical properties, chemical composition requirements, wire dimensions, manganin alloy grades, packaging and labeling requirements, acceptance rules, testing methods, and surface requirements.
The main GOST for lump manganese:
GOST 6008–90 - Specifications for nitrided and metallic manganese. This standard establishes lump sizes, product quality requirements, chemical composition, inspection methods, metallic manganese grades, acceptance rules, packaging requirements, labeling, transportation, and storage.
The main GOST standard for cupronickel strip:
GOST 5187–2003 - technical specifications for strip made of copper-nickel alloys. This standard defines surface quality, manufacturing accuracy, mechanical properties, chemical composition requirements, alloy grades, inspection methods, strip assortment, packaging and marking requirements, and acceptance procedures.
The main GOST standard for molybdenum strip:
GOST 25442–82 - technical specifications for rolled products made of molybdenum and its alloys. This standard specifies requirements for physical properties, packaging and storage, molybdenum grades, delivery status, quality control, chemical composition, assortment, mechanical properties, and surface quality.
The main technical specifications for molybdenum foil:
TU 48-19-245-84 - Molybdenum foil. These specifications regulate: delivery method, quality control, material condition, surface requirements, geometry, tolerances, dimensions, chemical composition, material, and area of application.
The main GOST standard for molybdenum wire:
GOST 18905–73 - Molybdenum wire product range. This standard defines: basic surface quality requirements, delivery method, permissible diameters and their accuracy, dimensions, mechanical properties, molybdenum grades, technical requirements, tolerances, and product range.
The main GOST standard for molybdenum electrodes:
GOST 23949–80 - technical specifications for molybdenum electrodes. This standard regulates: testing methods, absence of internal defects, surface quality, geometry, supply, packaging, functional properties, technical requirements, range, and grades of electrodes.
The main GOST standard for molybdenum rounds:
GOST 17432–72 - Specifications for bars and forgings made of M-MP alloys. Powder materials. The standard establishes: quality control, surface and defect requirements, M-MP powder base, diameter range, molybdenum round bars, supply, mechanical requirements, product range, and chemical composition.
The main GOST standard for molybdenum sheets:
GOST 17431–72 - Specifications for sheets made of M-MP alloy. Powder materials. The standard regulates: surface defects and quality control, process suitability for vacuum and high temperatures, sheet metal requirements, permissible impurities, chemical purity of Mo, M-MP powder base, supply, packaging, mechanical properties, and sheet product range.
The main GOST standard for nickel sheets:
GOST 6235–91 - technical specifications for nickel sheets and strips. This standard regulates mechanical parameters, surface requirements, nickel grades NP1–NP4, tolerances, dimensions, packaging, transportation, quality control, geometry and shape, product range, and chemical composition.
The main GOST standard for nickel anodes:
GOST 2132–90 - technical specifications for nickel anodes. This standard regulates requirements for anode dissolution in electrolyte, acceptance rules, chemical composition, inspection methods, product range and surface quality, marking, geometry, packaging, and product range of anodes.
The main standard for niobium foil:
ST AO-41-2019 - Technical specifications for niobium foil and sheets. This standard regulates dimensions, tolerances, chemical composition, gas-forming impurity content, packaging and delivery rules, inspection and acceptance methods, mechanical properties, and surface quality.
The main specifications for niobium wire:
TU 48-4-316-74 - Technical specifications for niobium wire. This standard establishes delivery methods, marking, mechanical properties, quality control, packaging, dimensions, product range, metal structure, surface requirements, chemical composition, and wire grades.
The main specifications for niobium sheets:
TU 48-19-284-84 - Technical specifications for niobium sheets. They define: inspection methods for niobium sheet metal products, surface quality, dimensions, chemical composition, mechanical properties, packaging, delivery, structure control, product range, and sheet sizes.
The main technical specifications for niobium round bars are:
TU 48-19-259-85 - technical specifications for niobium rods. This standard regulates requirements for: structure, acceptance and delivery, chemical composition, tolerances, mechanical properties, surface quality, geometric dimensions, process testing, packaging, storage, marking, inspection methods, and product range of rods.
The main GOST standard for nichrome wire is:
GOST 12766.1–90 - Specifications for wire made of precision alloys with high electrical resistance. This standard establishes requirements for electrical resistance, surface quality, nichrome grades, acceptance procedures, manufacturing accuracy, diameter range, mechanical properties, supply, marking, quality control, wire assortment, and diameters.
The main GOST standard for nichrome tape is:
GOST 12766.2–90 - Specifications for tape made of precision alloys with high electrical resistance. This standard regulates requirements for product geometry, acceptance, packaging, and marking, surface quality, alloy grades, mechanical properties, assortment, electrical characteristics, classification by purpose, delivery method, and quality control of the tape.
The main GOST standard for fechral tape is:
GOST 12766.2–90 - Specifications for tape made of precision alloys with high electrical resistance. It establishes requirements for packaging and labeling, geometry, electrical resistance, mechanical properties, chemical composition of iron-chromium-aluminum alloys, inspection methods, product range, acceptance, surface quality, delivery, and tape range.
The main GOST standard for fechral wire is:
GOST 12766.1–90 - Specifications for wire made of precision alloys with high electrical resistance. This standard defines the rules for acceptance, labeling, packaging, and delivery, product range, operating temperature, electrical and mechanical properties, surface quality, testing methods, and applications of the wire.
Table of weights of alumel wire
| Diameter, mm | Cross-sectional area, mm² | Weight, g/m | Weight, kg/100 m |
| 0,2 | 0,0314 | 0,27 | 0,027 |
| 0,3 | 0,0707 | 0,6 | 0,06 |
| 0,4 | 0,1257 | 1,07 | 0,107 |
| 0,5 | 0,1963 | 1,67 | 0,167 |
| 0,6 | 0,2827 | 2,4 | 0,24 |
| 0,8 | 0,5027 | 4,27 | 0,427 |
| 1,0 | 0,7854 | 6,67 | 0,667 |
| 1,2 | 1,131 | 9,62 | 0,962 |
| 1,5 | 1,767 | 15 | 1,5 |
| 2,0 | 3,142 | 26,7 | 2,67 |
| 2,5 | 4,909 | 41,8 | 4,18 |
| 3,0 | 7,069 | 60,2 | 6,02 |
Table of Babbitt Ingot Weights
| Babbitt brand | Typical weight of pig | Density, g/cm³ | Note |
| B83 | 22–25 kg | 7,3 | Tin babbitt |
| B88 | 22–25 kg | 7,4 | High tin |
| B16 | 22–25 kg | 9,2 | Lead babbitt |
| BH | 15–25 kg | 8,8 | Nickel |
| BKA | 10–20 kg | 7,5 | Calcium |
| BC6 | 20–25 kg | 9,4 | Lead-antimony |
| BC | 20–25 kg | 9,3 | Bearing |
Bronze powder weight chart:
Bulk density of bronze powder
| Type of bronze powder | Bulk density, g/cm³ | Weight of 1 liter, kg |
| Fine powder | 2,0–2,8 | 2,0–2,8 |
| Middle faction | 2,8–3,8 | 2,8–3,8 |
| Major faction | 3,8–4,8 | 3,8–4,8 |
| Spherical powder | 4,0–5,5 | 4,0–5,5 |
| Compacted powder | 5,5–6,5 | 5,5–6,5 |
Weight of bronze powder by volume
| Volume | Average weight |
| 1 l | 3–5 kg |
| 5 l | 15–25 kg |
| 10 l | 30–50 kg |
| 20 l | 60–100 kg |
| 50 l | 150–250 kg |
Table of bismuth pig iron weights
| Pig type | Weight of one pig | Approximate dimensions | Note |
| Mini pigs | 0,5 кг | small ingots | laboratory/trial batches |
| Small | 1 кг | compact ingots | frequent packaging |
| Standard | 2 кг | rectangular | the most common |
| Average | 5 кг | cast blocks | industrial packaging |
| Large | 10 кг | massive ingots | warehouse lots |
| Industrial | 15–25 кг | big pigs | metallurgical supplies |
Table of ferrovannadium lump weights
| Piece fraction, mm | Average weight of 1 piece |
| 5–10 mm | 5–30 g |
| 10–20 mm | 30–120 g |
| 20–30 mm | 0,12–0,35 kg |
| 30–50 mm | 0,35–1,0 kg |
| 50–80 mm | 1–3 kg |
| 80–100 mm | 3–6 kg |
| 100–150 mm | 6–15 kg |
| 150–200 mm | 15–30 kg |
Approximate weight of a piece:
| Size of a conventional piece | Approximate weight |
| 5×5×5 cm | ~0,8 kg |
| 10×10×5 cm | ~3,1 kg |
| 10×10×10 cm | ~6,2 kg |
| 20×10×10 cm | ~12,4 kg |
Tungsten wire weight chart
| Diameter, mm | Cross-sectional area, mm² | Weight of 1 m, g | Weight 100 m, kg |
| 0,02 | 0,00031 | 0,006 | 0,0006 |
| 0,05 | 0,00196 | 0,038 | 0,0038 |
| 0,1 | 0,00785 | 0,151 | 0,015 |
| 0,2 | 0,0314 | 0,606 | 0,061 |
| 0,3 | 0,0707 | 1,36 | 0,136 |
| 0,5 | 0,1963 | 3,79 | 0,379 |
| 0,8 | 0,5027 | 9,7 | 0,97 |
| 1,0 | 0,7854 | 15,2 | 1,52 |
| 1,5 | 1,767 | 34,1 | 3,41 |
| 2,0 | 3,142 | 60,6 | 6,06 |
| 3,0 | 7,069 | 136 | 13,6 |
| 5,0 | 19,635 | 379 | 37,9 |
Table of tungsten electrode weights
For electrodes 175 mm long
| Diameter, mm | Weight of 1 electrode, g | Approximately pcs/kg |
| 1,0 | 2,65 | ~377 |
| 1,6 | 6,78 | ~147 |
| 2,0 | 10,6 | ~94 |
| 2,4 | 15,2 | ~66 |
| 3,0 | 23,9 | ~42 |
| 3,2 | 27,1 | ~37 |
| 4,0 | 42,4 | ~24 |
| 4,8 | 61 | ~16 |
| 5,0 | 66,2 | ~15 |
| 6,0 | 95,4 | ~10 |
For electrodes 150 mm long
| Diameter, mm | Weight of 1 electrode, g |
| 1,0 | 2,27 |
| 1,6 | 5,81 |
| 2,0 | 9,08 |
| 2,4 | 13 |
| 3,2 | 23,2 |
| 4,0 | 36,3 |
Tungsten Wheel Weight Chart
| Diameter, mm | Weight of 1 m, kg | Weight of 100 m, kg |
| 3 | 1,36 | 136 |
| 5 | 3,79 | 379 |
| 8 | 9,7 | 970 |
| 10 | 15,2 | 1520 |
| 12 | 21,9 | 2190 |
| 15 | 34,1 | 3410 |
| 20 | 60,6 | 6060 |
| 25 | 94,6 | 9460 |
| 30 | 136 | 13600 |
| 40 | 243 | 24300 |
| 50 | 379 | 37900 |
Tungsten Sheet Weight Chart
| Thickness, mm | Weight of 1 m², kg |
| 0,02 | 0,386 |
| 0,05 | 0,965 |
| 0,1 | 1,93 |
| 0,2 | 3,86 |
| 0,3 | 5,79 |
| 0,5 | 9,65 |
| 1,0 | 19,3 |
| 2,0 | 38,6 |
| 3,0 | 57,9 |
| 5,0 | 96,5 |
| 10 | 193 |
For standard sheets measuring 200×200 mm
| Thickness | Sheet weight |
| 0,1 мм | 77 г |
| 0,5 мм | 0,39 кг |
| 1,0 мм | 0,77 кг |
| 2,0 мм | 1,54 кг |
| 5,0 мм | 3,86 кг |
Tungsten powder weight chart
| Volume | Weight |
| 1 cm³ | 19.25 g |
| 2 cm³ | 38.5 g |
| 5 cm³ | 96.25 g |
| 10 cm³ | 192.5 g |
| 20 cm³ | 385 g |
| 50 cm³ | 962.5 g |
| 100 cm³ | 1.925 kg |
| 200 cm³ | 3.85 kg |
| 500 cm³ | 9.625 kg |
| 1000 cm³ | 19.25 kg |
Gallium weight chart
| Volume | Weight |
| 1 cm³ | 5.91 g |
| 2 cm³ | 11.82 g |
| 5 cm³ | 29.55 g |
| 10 cm³ | 59.1 g |
| 20 cm³ | 118.2 g |
| 50 cm³ | 295.5 g |
| 100 cm³ | 591 g |
| 200 cm³ | 1.182 kg |
| 500 cm³ | 2.955 kg |
| 1000 cm³ | 5.91 kg |
Table of cadmium ingot weights
| Volume | Weight |
| 1 cm³ | 8.65 g |
| 2 cm³ | 17.3 g |
| 5 cm³ | 43.25 g |
| 10 cm³ | 86.5 g |
| 20 cm³ | 173 g |
| 50 cm³ | 432.5 g |
| 100 cm³ | 865 g |
| 200 cm³ | 1.73 kg |
| 500 cm³ | 4.325 kg |
| 1000 cm³ | 8.65 kg |
Table of cobalt ingot weights
| Pig size (L × W × H) | Volume | Weight |
| 5 × 2 × 1 cm | 10 cm³ | 89 g |
| 6 × 3 × 1 cm | 18 cm³ | 160 g |
| 8 × 4 × 1 cm | 32 cm³ | 285 g |
| 10 × 5 × 1 cm | 50 cm³ | 445 g |
| 10 × 5 × 2 cm | 100 cm³ | 890 g |
| 12 × 6 × 2 cm | 144 cm³ | 1.28 kg |
| 15 × 5 × 2 cm | 150 cm³ | 1.34 kg |
| 15 × 10 × 2 cm | 300 cm³ | 2.67 kg |
| 20 × 10 × 2 cm | 400 cm³ | 3.56 kg |
| 25 × 10 × 2 cm | 500 cm³ | 4.45 kg |
Constantan wire weight chart
| Diameter | 1 m | 5 m | 10 m | 50 m | 100 m |
| 0.1 mm | 0.07 g | 0.35 g | 0.7 g | 3.5 g | 7 g |
| 0.2 mm | 0.28 g | 1.4 g | 2.8 g | 14 g | 28 g |
| 0.3 mm | 0.63 g | 3.15 g | 6.3 g | 31.5 g | 63 g |
| 0.5 mm | 1.75 g | 8.75 g | 17.5 g | 87.5 g | 175 g |
| 0.8 mm | 4.48 g | 22.4 g | 44.8 g | 224 g | 448 g |
| 1.0 mm | 6.98 g | 34.9 g | 69.8 g | 349 g | 698 g |
| 1.5 mm | 15.7 g | 78.5 g | 157 g | 785 g | 1.57 kg |
| 2.0 mm | 27.9 g | 139.5 g | 279 g | 1.4 kg | 2.79 kg |
Table of weights of kopel wire
| Diameter | 1 m | 10 m | 50 m | 100 m |
| 0.1 mm | 0.07 g | 0.7 g | 3.5 g | 7 g |
| 0.2 mm | 0.28 g | 2.8 g | 14 g | 28 g |
| 0.3 mm | 0.63 g | 6.3 g | 31.5 g | 63 g |
| 0.5 mm | 1.75 g | 17.5 g | 87.5 g | 175 g |
| 0.8 mm | 4.47 g | 44.7 g | 223.5 g | 447 g |
| 1.0 mm | 6.99 g | 69.9 g | 349.5 g | 699 g |
| 1.5 mm | 15.73 g | 157.3 g | 786.5 g | 1.57 kg |
| 2.0 mm | 27.96 g | 279.6 g | 1.4 kg | 2.8 kg |
Ligature weight table
| Ligature type | Composition example | Density (g/cm³) | 1 cm³ |
| Al–Ti–B | AlTi5B1 | 2.6–2.8 | ~2.7 g |
| Al–Cu | AlCu50 | 3.0–4.0 | ~3.3 g |
| Al–Mn | AlMn10 | 2.8–3.2 | ~3.0 g |
| Al–Si | AlSi20 | 2.5–2.7 | ~2.6 g |
| Cu–Mn | copper ligatures | 8.0–8.5 | ~8.3 g |
| Cu–Ni | nickel ligatures | 8.6–8.9 | ~8.8 g |
| Ni–Mo | nickel-molybdenum | 8.2–9.0 | ~8.6 g |
| Fe–Mn | ferromanganese | 6.8–7.2 | ~7.0 g |
| Fe–Si | ferrosilicon | 6.5–7.0 | ~6.8 g |
| Zn–Al | zinc ligatures | 5.5–6.5 | ~6.0 g |
Brass powder weight chart
| Volume | Weight |
| 1 cm³ | 3.8 g |
| 2 cm³ | 7.6 g |
| 5 cm³ | 19 g |
| 10 cm³ | 38 g |
| 20 cm³ | 76 g |
| 50 cm³ | 190 g |
| 100 cm³ | 380 g |
| 200 cm³ | 760 g |
| 500 cm³ | 1.9 kg |
| 1000 cm³ | 3.8 kg |
Copper powder weight chart
| Volume | Weight |
| 1 cm³ | 4.2 g |
| 2 cm³ | 8.4 g |
| 5 cm³ | 21 g |
| 10 cm³ | 42 g |
| 20 cm³ | 84 g |
| 50 cm³ | 210 g |
| 100 cm³ | 420 g |
| 200 cm³ | 840 g |
| 500 cm³ | 2.1 kg |
| 1000 cm³ | 4.2 kg |
Copper phosphorus weight chart
| Volume | Weight |
| 1 cm³ | 8.4 g |
| 2 cm³ | 16.8 g |
| 5 cm³ | 42 g |
| 10 cm³ | 84 g |
| 20 cm³ | 168 g |
| 50 cm³ | 420 g |
| 100 cm³ | 840 g |
| 200 cm³ | 1.68 kg |
| 500 cm³ | 4.2 kg |
| 1000 cm³ | 8.4 kg |
Magnesium ingot weight chart
| Pig size (L × W × H) | Volume | Weight |
| 5 × 5 × 2 cm | 50 cm³ | 87 g |
| 10 × 5 × 2 cm | 100 cm³ | 174 g |
| 10 × 5 × 5 cm | 250 cm³ | 435 g |
| 15 × 5 × 5 cm | 375 cm³ | 653 g |
| 20 × 5 × 5 cm | 500 cm³ | 870 g |
| 20 × 10 × 5 cm | 1000 cm³ | 1.74 kg |
| 25 × 10 × 5 cm | 1250 cm³ | 2.18 kg |
| 30 × 10 × 5 cm | 1500 cm³ | 2.61 kg |
| 30 × 15 × 5 cm | 2250 cm³ | 3.92 kg |
| 40 × 15 × 5 cm | 3000 cm³ | 5.22 kg |
| 40 × 20 × 5 cm | 4000 cm³ | 6.96 kg |
| 50 × 20 × 5 cm | 5000 cm³ | 8.70 kg |
| 50 × 20 × 10 cm | 10000 cm³ | 17.4 kg |
| 60 × 20 × 10 cm | 12000 cm³ | 20.9 kg |
| 70 × 20 × 10 cm | 14000 cm³ | 24.4 kg |
Manganin wire weight chart
| Wire diameter | 1 m | 10 m | 50 m | 100 m |
| 0.1 mm | 0.066 g | 0.66 g | 3.3 g | 6.6 g |
| 0.2 mm | 0.264 g | 2.64 g | 13.2 g | 26.4 g |
| 0.3 mm | 0.594 g | 5.94 g | 29.7 g | 59,4 g |
| 0.5 mm | 1.65 g | 16.5 g | 82.5 g | 165 g |
| 0.8 mm | 4.22 g | 42.2 g | 211 g | 422 g |
| 1.0 mm | 6.60 g | 66 g | 330 g | 660 g |
| 1.5 mm | 14.85 g | 148.5 g | 742.5 g | 1.49 kg |
| 2.0 mm | 26.4 g | 264 g | 1.32 kg | 2.64 kg |
Table of lump manganese weights
| Volume | Weight |
| 1 cm³ | 7.3 g |
| 2 cm³ | 14.6 g |
| 5 cm³ | 36.5 g |
| 10 cm³ | 73 g |
| 20 cm³ | 146 g |
| 50 cm³ | 365 g |
| 100 cm³ | 730 g |
| 200 cm³ | 1.46 kg |
| 500 cm³ | 3.65 kg |
| 1000 cm³ | 7.3 kg |
Table of weights of nickel silver strip
For a strip thickness of 0.5 mm
| Width | 1 m | 5 m | 10 m |
| 10 mm | 44 g | 220 g | 440 g |
| 20 mm | 88 g | 440 g | 880 g |
| 50 mm | 220 g | 1.1 kg | 2.2 kg |
| 100 mm | 440 g | 2.2 kg | 4.4 kg |
For a strip thickness of 1.0 mm
| Width | 1 m | 5 m | 10 m |
| 10 mm | 88 g | 440 g | 880 g |
| 20 mm | 176 g | 880 g | 1.76 kg |
| 50 mm | 440 g | 2.2 kg | 4.4 kg |
| 100 mm | 880 g | 4.4 kg | 8.8 kg |
For a strip thickness of 2.0 mm
| Width | 1 m | 5 m | 10 m |
| 10 mm | 176 g | 880 g | 1.76 kg |
| 20 mm | 352 g | 1.76 kg | 3.52 kg |
| 50 mm | 880 g | 4.4 kg | 8.8 kg |
| 100 mm | 1.76 kg | 8.8 kg | 17.6 kg |
Molybdenum tape weight chart
For tape thickness 0.1 mm
| Width | 1 m | 5 m | 10 m |
| 5 mm | 0.51 g | 2.55 g | 5.1 g |
| 10 mm | 1.02 g | 5.1 g | 10.2 g |
| 20 mm | 2.04 g | 10.2 g | 20.4 g |
| 50 mm | 5.1 g | 25.5 g | 51 g |
| 100 mm | 10.2 g | 51 g | 102 g |
For tape thickness 0.5 mm
| Width | 1 m | 5 m | 10 m |
| 5 mm | 2.55 g | 12.75 g | 25.5 g |
| 10 mm | 5.1 g | 25.5 g | 51 g |
| 20 mm | 10.2 g | 51 g | 102 g |
| 50 mm | 25.5 g | 127.5 g | 255 g |
| 100 mm | 51 g | 255 g | 510 g |
For tape thickness 1,0 mm
| Width | 1 m | 5 m | 10 m |
| 5 mm | 5.1 g | 25.5 g | 51 g |
| 10 mm | 10.2 g | 51 g | 102 g |
| 20 mm | 20.4 g | 102 g | 204 g |
| 50 mm | 51 g | 255 g | 510 g |
| 100 mm | 102 g | 510 g | 1.02 kg |
Molybdenum foil weight chart
| Thickness, mm | Weight of 1 m², kg |
| 0,01 | 0,102 |
| 0,02 | 0,204 |
| 0,03 | 0,306 |
| 0,04 | 0,408 |
| 0,05 | 0,51 |
| 0,06 | 0,612 |
| 0,07 | 0,714 |
| 0,08 | 0,816 |
| 0,09 | 0,918 |
| 0,1 | 1,02 |
| 0,12 | 1,224 |
| 0,15 | 1,53 |
| 0,2 | 2,04 |
| 0,25 | 2,55 |
| 0,3 | 3,06 |
| 0,4 | 4,08 |
| 0,5 | 5,1 |
Molybdenum wire weight chart
| Diameter, mm | Weight of 1 m, g |
| 0,02 | 0,003 |
| 0,03 | 0,007 |
| 0,05 | 0,02 |
| 0,08 | 0,051 |
| 0,10 | 0,08 |
| 0,12 | 0,115 |
| 0,15 | 0,18 |
| 0,20 | 0,32 |
| 0,25 | 0,501 |
| 0,3 | 0,721 |
| 0,4 | 1,282 |
| 0,5 | 2,003 |
| 0,6 | 2,884 |
| 0,8 | 5,126 |
| 1,0 | 8,011 |
| 1,2 | 11,536 |
| 1,5 | 18,026 |
| 2,0 | 32,044 |
| 2,5 | 50,069 |
| 3,0 | 72,099 |
Molybdenum Electrode Weight Table
| Electrode diameter, mm | Weight of 1 m, kg |
| 1 | 0,008 |
| 2 | 0,032 |
| 3 | 0,072 |
| 4 | 0,128 |
| 5 | 0,2 |
| 6 | 0,288 |
| 8 | 0,512 |
| 10 | 0,801 |
| 12 | 1,153 |
| 14 | 1,569 |
| 16 | 2,05 |
| 18 | 2,595 |
| 20 | 3,204 |
| 25 | 5,006 |
| 30 | 7,21 |
| 40 | 12,817 |
| 50 | 20,026 |
Molybdenum Circle Weight Chart
| Diameter, mm | Weight of 1 m, kg |
| 5 | 0,2 |
| 6 | 0,29 |
| 8 | 0,51 |
| 10 | 0,8 |
| 12 | 1,15 |
| 14 | 1,57 |
| 16 | 2,05 |
| 18 | 2,6 |
| 20 | 3,2 |
| 22 | 3,88 |
| 25 | 5,01 |
| 28 | 6,29 |
| 30 | 7,21 |
| 32 | 8,2 |
| 35 | 9,82 |
| 40 | 12,82 |
| 45 | 16,22 |
| 50 | 20,03 |
| 60 | 28,84 |
| 70 | 39,26 |
| 80 | 51,29 |
| 90 | 64,93 |
| 100 | 80,11 |
Molybdenum Sheet Weight Table
| Sheet thickness, mm | Weight of 1 m², kg |
| 0,1 | 1,02 |
| 0,2 | 2,04 |
| 0,3 | 3,06 |
| 0,5 | 5,1 |
| 0,8 | 8,16 |
| 1,0 | 10,2 |
| 1,5 | 15,3 |
| 2,0 | 20,4 |
| 3,0 | 30,6 |
| 4,0 | 40,8 |
| 5,0 | 51 |
| 6,0 | 61,2 |
| 8,0 | 81,6 |
| 10 | 102 |
Nickel Sheet Weight Table
| Thickness, mm | Weight of 1 m², kg |
| 0,5 | 4,45 |
| 1,0 | 8,9 |
| 2,0 | 17,8 |
| 3,0 | 26,7 |
| 4,0 | 35,6 |
| 5,0 | 44,5 |
| 6,0 | 53,4 |
| 8,0 | 71,2 |
| 10 | 89 |
For sheets 1000 × 2000 mm
| Thickness, mm | Sheet weight, kg |
| 1,0 | 17,8 |
| 2,0 | 35,6 |
| 3,0 | 53,4 |
| 5,0 | 89 |
| 10 | 178 |
For sheets 1250 × 2500 mm
| Thickness, mm | Sheet weight, kg |
| 1,0 | 27,8 |
| 2,0 | 55,6 |
| 3,0 | 83,4 |
| 5,0 | 139,1 |
| 10 | 278,1 |
For sheets 1500 × 3000 mm
| Thickness, mm | Sheet weight, kg |
| 1,0 | 40,1 |
| 2,0 | 80,1 |
| 3,0 | 120,2 |
| 5,0 | 200,3 |
| 10 | 400,5 |