Blog

• What's the part number of CH870/H7800?

  Nov 28, 2025

  CH870/H7800 refer to the cone crusher model by Sandvik.   Therefore, there is not a single "part number" for the entire crusher. Instead, there are thousands of part numbers for its individual components. Mantle Crusher Crusher Concave Spider Bushing Inner Head Nut with Buring Ring Here are some examples of critical parts for the CH870/H7800 crusher:     BOTTOMSHELL ASSEMBLY 452.0697-001 SUPPORT RING 452.0687-001 WEARING PLATES, BOTTOMSHELL 452.1191 DOWEL PIN 442.8290-01 DUST COLLAR ASSEMBLY 452.0998-901 WEARING PLATE 452.0710-901 ECCENTRIC ASSEMBLY 452.0809-901 WASHER TRBSB 17X42 847.0060-00 HYDROSET CYLINDER ASSEMBLY 452.0953-901 FEED HOPPER, LOWER 452.0799-901 PINION SHAFT HOUSING ASSEMBLY 452.0656-901 FEED HOPPER, UPPER 452.0802-901 MAIN SHAFT ASSEMBLY 452.0917-901 CONE EC 452.1451-901 TOP SHELL ASSEMBLY 452.0684-901 WEARING RUBBER 452.1370-901 FEED HOPPER 452.0760-901 LOCK NUT M16 8 FZB ISO 7040 845.0215-00 HYDROSET SYSTEM 452.1488-901 SPLITTER 452.1741-901 HOSES AND PROTECTIONS AT CRUSHER 452.1158-901 COVER 452.1455-901 DIRECT DRIVE ON SUB-FRAME 452.1157 RUBBER SHEET 452.1753-901 V-BELT DRIVE ON SUB-FRAME 452.0946 WEARING RUBBER 452.1296-001 V-BELT DRIVE, FIXED 452.1881 RUBBER ATTACHMENT STRIP 452.1303-001 TOOL LIST 452.1257 CONE EC 452.0792-901 OVERPRESSURE INSTALLATION 452.1084 RUBBER SHEET EC 452.1137-001 BOTTOM SHELL 452.0675-001 RUBBER PLUG 873.1287-00 FOOT BASE 452.1064-001 ADJUSTING UNIT 452.1431-901 FOOT FOR SUBFRAME BASE 452.0977-001 SCREW M6S 20X65 8.8 FZB ISO 4017 840.0650-00 FOOT FOR SUBFRAME, MIRROR - INVERTED BASE 452.0977-002 WASHER TBRSB 21X58 847.0197-00 SCREW M6S 30X110 8.8 FZV ISO 4014 840.0693-00 LOCK NUT M20 8 FZB ISO 7040 845.0203-00 WASHER BRB 31X58 HB200 847.0125-00 SCREW M6S 24X130 8.8 FZB 1SO 4017 840.1192-00 BOSS 442.7907-01 DISTRIBUTION BOX 452.1443-901 COVER 442.7201-00 SCREW M6S 20X35 8.8 FZB LS0 4017 840.1135-00 STUD WELD 843.1578-00 WEARING PLATE 452.1447-001 WASHER BRB13X24 FZB HB200 IS0 7089 847.0147-00 RUBBER SHEET 442.9747-01 LOCK NUT M12 8 FZB ISO 7040 845.0030-00 RUBBER SHEET 442.9751-01 LINER-PIN SHAFT ARM 452.1066-901 RUBBER SHEET 442.9751-02 LINER-NARROW ARM 452.1065-901 RUBBER SHEET 442.9750-01 BNED 442.9396-00 SCREW M6S 16X65 8.8 FZB ISO 4014 840.0071-00 FLANGE 900.2199-00 MAIN VALVE 902.0850-00 SCREW M6S 16X50 8.8 FZB ISO 4017 840.0068-00 PIPLT VALVE BLOCK 902.0851-00 WASHER BRB17X30HB200 FZB 1S07089 847.0016-00 VALVE BLOCK 452.0978-001 O-RING 873.0129-00 REDUCING THREADED ADAPTER 900.2291-00 BOTTOM SHELL BUSHING 452.0795-001 MEASURING NIPPLE 1/4“ 900.2292-00 PIN CP 12M6X30 1S0 2338 853.0464-00 ADAPTER G 3/3” BXG ½” B 900.0647-00 SWIVEL RUN TEE G 3/4 900.2127-00 SEAL TREDO 18 873.0384-00 COVER 3/4 900.0276-00 RETURN OIL HOSE 452.1616-901 SEAL RING TREDO 20 3/4 873.0385-00 HYDRAULIC HOSE 452.1286-001 WEARING PLATES, BOTTOMSHELL 452.1191-901 HYDRAULIC HOSE 452.1287-001 ECCENTRIC WEARING PLATE 452.0808-001 HYDRAULIC HOSE 452.1288-001 PIN 853.0646-00 ADAPTER 900.2599-00 WEARING PLATE 452.1077-001 STRAIGHT ADAPTER 900.0659-00 WEARING PLATE 452.1078-001 HYDRAULIC HOSE SAE 100 R2AT 2”X2000 452.1538-001 WEARING PLATE 452.1078-002 BRACKET 452.1414-001 ROUND BAR 1312-00 D 20 L=100 803.0625-00 RUBBER CLOTH 452.1415-001 PLATE HB 360-440 T=6 L=480 800.0518-00 WEARING LINER 452.1419-901 DUST COLLAR 452.0926-001 BOLT 442.9503-01 SCREW M6S 16X30 8.8 FZB 1S0 4017 840.0064-00 SUPPORT 452.1425-901 RING 452.0999-001 BRACKET 452.1426-001 SCREW M6S 16X60 8.8 FZB 1S0 4017 840.0070-00 BRACKET 452.1448-001 WASHER BRB 17X30 HB200 IS07089 547.0016-00 BRACKET 452.1449-001 LOCATING BAR 452.0834-001 BRACKET 452.1468-901 SHIM T=0,1 452.1279-001 PROTECTION 452.1427-001 SHIM T=0,5 452.1279-002 BRACKET 452.1476-901 SHIM T=0,7 452.1279-003 SCREW M6S 12X60 8.8 FZB ISO 4014 840.0051-00 SHIM T=1 452.1279-004 SCREW M6S 12X50 8.8 FZB ISO 4014 840.0049-00 SCREW MC6S 10X40 8.8 FZB 841.0254-00 HOSE SAE 100 R2AT 1”1200 452.1579-001 GASKET 452.1267-001 SEAL RING TREDO 30 873.0390-00 INNER DUST SEAL RING 452.1000-001 FLANGE HALFSAE 3000 2”PSI 900.2592-00 ECCENTRIC 452.0540-001 O RING 873.0755-00 ECCENTRIC BUSHING 32+37+42+47 452.0805-001 SCREW MC6S 12X35 8.8 FZB 841.0268-00 ECCENTRIC BUSHING 47+52+57+62 452.0806-001 HOSE SAE 100 RIAT 3/4”X1000 452.1580-001 ECCENTRIC BUSHING 62+68+74+80 452.0807-001 HOSE SAE100 RIAT 1”X1000 452.1587-001 HUB 452.0516-001 PILOT VALVE PROTECTION 452.1511-001 RING 452.0902-901 SCREW M6S 16X40 8.8 FZB ISO 4017 840.0066-00 SCREW M6S 16X50 8.8 FZB 1S0 4017 840.0069-00 SCREW M6S 12X20 8.8 FZB ISO 4017 840.0622-00 WASHER BRB 17X30 HB200 FZB ISO 7089 847.1106-00 STRAIGHT HOSE COUPLING 452.1536-901 KEY 442.9610-01 SCREW MF6S 16X35 8.8 841.0578-00 SCREW MC6S 16X90 12.9 841.0535-00 BRACKET 452.1414-002 SCREW MC6S 16X55 12.9 841.0548-00 HOSE 819.0061-00 WASHER B16 17X30 847.0181-00 O RING 873.0615-00 GEAR AND PINION SET 50HZ 452.0530-901 END COVER 2” SAE-FLANGE 452.1589-001 GEAR AND PINION SET 60HZ 452.0531-901 END COVER 3/4” SAE-FLANGE 452.1592-001 KEY 452.1063-001 FLANGE HALF SAE 3000 3/4" 900.2602-00 HYDROSET CYLINDER 452.0970-001 FLANGE HALF SAE 3000 1” 900.2385-00 SCREW M6S 30X200 10.9 840.1176-00 O RING 873.1299-00 WASHER BRB 31X56 HB305 1S0 7089 847.0310-00 END COVER L”SAE-FLANGE 452.1591-001 HYDROSET CYLINDER BUSHING 452.0969-001 END COVER 4” SAE-FLANGE 452.1590-001 SCREW M6S 10X16 8.8 FZB ISO 4017 540.0032-00 SCREW MC6S 10X35 8.8 FZB 841.0253-00 WASHER BRB 10,5X22 HB200 847.0144-00 LOCK NUT M10 8 FZB SO 7040 845.0213-00 O-RING 740X8,4 873.1247-00 BRACKET FOR VALVE 452.1602-901 PISTON ASSEMBLY 452.1049-901 SPACER 452.1665-001 PIN CP 25M6X60 853.0119-00 SUBFRAME DIRECT DRIVE 452.0905-901 PISTON WEARING PLATE 452.0538-001 DUST SEAL 452.1642-901 STEP WASHER 452.0537-001 PROTECTIVE CAP FOR SHAFT 452.1014-901 CHEVRON PACKING 452.0986-901 SHAFT COUPLING OMEGA E120 930.0313-00 PACKING CLAMP PLATE 452.0990-001 RUBBER DAMPER 442.9650-92 SCREW MC6S 12X30 8.8 FZB 841.0267-00 SPACER WITH FLAT BAR 452.1622-901 HYDROSET CYLINDER COVER 452.0972-001 SUPPORT 458.0452-01 PROTECTION PLUG 919.0190-00 WASHER 442.9342-01 PLUG VSTI R ½”-ED 900.2307-00 SENSOR 984.0217-00 SCREW MC6S 8X40 8.8 FZB 841.0239-00 SHIM T=1 458.0406-01 AIR BLEEDER VALVE 902.0605-00 SHIM T=0,5 458.0406-02 0-RING 629,3X5,7 873.1352-00 SHIM T=0,3 458.0406-03 O-RING 685X5,7 873.1351-00 THREADED PIN M30X130 MACHINED 452.1609-001 PISTON SENSOR 984.0421-00 SCREW M6S 36X180 8.8 FZV ISO 4014 840.0718-00 0-RING 44,2X3 873.0111-00 NUT M6M M30 8 FZV ISO 4032 845.0013-00 PINION SHAFT HOUSING 452.0657-001 WASHER BRB 8.4X16 HB200 ISO 7089 847.0012-00 SCREW M6S 24X100 8.8 FZV ISO 4014 840.0672-00 SCREW M6S 8X20 8.8 FZB ISO 4017 840.0021-00 WASHER TBRSB 26X65 847.0063-00 SCREW M6S 20X50 8.8 FZB ISO 4017 840.0077-00 GASKET T=0,5 442.9364-01 SUBFRAME V-BELT DRIVE 452.1263-901 GASKET T=0,5 442.9364-02 MOTORFRAME FOR V-BELT DRIVE 452.1004-901 GASKET T=0,5 442.9364-03 SLIDE RAIL 458.0773-01 BEARING 32230 J2 868.0832-00 BRACKET 458.0156-00 NUT KM 30 150X2S02982 845.0164-00 COUPLING RB 2,15 D-110/120 930.0262-00 LOCK WASHER MB 30 ISO 2982 847.0299-00 SPACER 458.0307-01 WEAR RING 442.9809-01 SHAFT 458.0348-01 SPACER RING 442.9808-01 BEARING HOUSING 458.0349-01 O RING 873.0136-00 KEY T 28X16X110 857.0336-00 OIL SEAL RING TYPE 4 873.1219-00 SCREW SK622 16X40 842.0019-00 BEARING COVER, INNER 452.0716-001 ROLLER BEARING 23024 868.0829-00 BEARING COVER, OUTER 442.9260-01 CLAMPING SLEEVE H3024 868.0830-00 SCREW M6S 12X35 8.8 FZB ISO 4017 840.0046-00 SUPPORT BLOCK 649.0168-01 SCREW M6S 20X60 8.8 FZB ISO 4017 840.0078-00 GUIDE RING 871.0110-00 WASHER BRB 21X36 HB200 847.0132-00 FELT SEAL FS 460 873.1289-00 GASKET T=0,8 442.9365-01 V-RING V-110A 873.0898-00 GASKET T=0,8 442.9366-02 COVER END 871.0404-00 SPRING PIN 853.0590-00 SPACER 442.9343-01 PINION SHAFT 452.0727-001 DRIVING 452.1846-901 PLUG 900.2388-00 V-BELT GUARD, SHAFT 452.1297-901 KEY 857.0360-00 V-BELT GUARD, ASSY 452.0769-901 KEY 857.0354-00 WASHER BRB 37X66 HB200 SO 7089 847.0162-00 ELBOW 3/4 IS0 49 900.0022-00 SCREW M6S 36X130 8.8 FZV ISO 4017 840.1038-00 SCREW 842.0020-00 SCREW M6S 27X70 8.8 FZV ISO 4017 840.0669.00 ADAPTER ¾” 900.0655-00 NUT M6M M12 8 FZB ISO 4032 845.0007-00 OIL LEVEL GAUGE 442.9346-01 NUT M6M M36 8 FZV ISO 4032 845.0221-00 SEAL RING TREDO 26 873.0387-00 NUT M6M M36 8 FZV ISO 4032 840.0048-00 ADAPTER G 1 B 900.0656-00 SCREW M6S 24X150 8.8 FZV ISO 4014 840.0677-00 SEAL RING TREDO 23 873.0386-00 LOCK NUT M24 8 FZB 845.0216-00 RETAINING RING 855.0134-00 V-BELT PULLEY 710 MGT 160 16XSPC 879.0588-00 SCREW M6S 16X120H 840.1063-00 V-BELT PULLEY 710 MGT 160 14X8V 879.0577-00 NUT M6M M16 8 FZB ISO 4032 845.0009-00 BUSHING 452.1884-901 MAINSHAFT & HEAD CENTRE 452.1930-301 SUPPORT BLOCK 649.0168-04 MAIN SHAFT SLEEVE 452.0505-001 ADAPTER FIXED 7’ 452.1848-901 MAIN SHAFT STEP 452.0507-001 KEY R 28X16X140 857.0290-00 RETAINING RING SGA 100 855.0026-00 NUT M6M M24 8 ISO 4032 845.0012-00 MANTLE A 452.0837-001 WASHER TBRB 40X68 847.0122-00 MANTLE EF 452.0845-001 LIFTING TOOL 452.1247-901 HEAD NUT WITH BURNING RING 452.0936-901 LIFTING TOOL 452.1246-901 INNER HEAD NUT 452.0930-001 LIFTING TOOL 442.9446-00 BURNING RING 452.0938-001 LIFTING TOOL 452.0452-001 DUST SEAL RING 452.0924-001 PISTON STOP PLATE 452.1512-901 RETAINING RING 452.0921-001 SCREW M6S 30X100 840.0692-00 RETAINER 442.9367-01 LOWERING ROD M16X900 442.7284-90 SCRAPER 452.1264-001 LOWERING ROD M30X1000 843.1529-00 SCREW M6S 16X70 8.8 FZB ISO 4014 840.0072-00 EYE BOLT LT M80 899.0336-00 TOP SHELL 452.0664-00 EYE BOLT LT M30 899.0032-00 SCREW M6S 42X280 8.8 1S0 4014 840.1124-00 EYE BOLT LT M24 899.0031-00 NUT M6M M42 8 FZB ISO 4032 845.0322-00 EYE BOLT LT M20 899.0160-00 WASHER BRB 43X80 HB200 SS3576 847.0171-00 EYE BOLT LT M16 899.0147-00 WASHER HB 200 442.9979-01 EYE BOLT LT M12 899.0155-00 PROTECTIVE CAP 899.0278-00 EYE BOLT LT M10 899.0099-00 SCREW M6S 42X120 8.8 FZB 442.9530-03 EYE BOLT LT M80 899.0244-00 SCREW M6S 16X25 8.8 FZB 1S04017 840.0634-00 RING SPANNER STRIKING 65MM 920.0110-00 ARM SHIELD 452.1060-001 RING SPANNER STRIKING 55MM 920.0109-00 LUBRICATION NIPPLE R1/4 914.0093-00 RING SPANNER STRIKING 46MM 920.0238-00 PIPE BUSHING 3/4X1/4 ISO 49 900.0139-00 U-RING SPANNER 55 MM 920.0243-00 STEEL PIPE 808.0095-00 U-RING SPANNER 46 MM 920.0131-00 COMPRESSION FITTINGS 900.0435-00 U-RING SPANNER 36 MM 920.0135-00 PLUG 900.1132-00 U-RING SPANNER 30 MM 920.0134-00 SPIDER CAP 452.0553-001 U-RING SPANNER 24 MM 920.0022-00 AIR FILTER 912.0114-00 U-RING SPANNER 18 MM 920.0244-00 NIPPLE 900.0169-00 U-RING SPANNER 16 MM 920.0245-00 ELBOW 900.0002-00 U-RING SPANNER 19 MM 920.0042-00 STEEL PIPE 808.0220-00 U-RING SPANNER 14 MM 920.0040-00 COMPRESSION FITTINGS 900.0425-00 U-RING SPANNER 10 MM 920.0038-00 O RING 873.1210-00 U-RING SPANNER 8 MM 920.0037-00 SCREW M6S 20X100 8.8 FZB ISO 4014 840.0653-00 SOCKET SCREW KCY 5 920.0035-00 SPIDER BUSHING 452.1619-001 SOCKET SCREW KEY 5/8" 920.0032-00 TEMPERATURE SENSOR 191.2376-00 CHUNK OF LEAD 442.0800-91 CONNECTION BOX 191.2365-00 FCELER GAUGE 0,05-1 MM 923.0422-00 ELBOW 1/4 ISO 49 900.0075-00 OVER PRESSURE AGGR. 452.1168 SCREWM6S 20X90 8.8 FZB 1S0 4017 840.0652-00 BUSHING 1 1/2 X 3/4 ISO 49 N4 900.0154-00 SEAL RING 452.1599-001 HOSE COUPLING R 3/4 900.1424-00 RING 452.0550-001 HOSE 1” 819.0187-00 RETAINING RING 452.0549-001 SOCKET RP 3/4 900.0275-00 SCREW MC6S 6X45 8.8 FZB 841.0225-00 T-PIPE PLASTIC ¾ 900.2572-00 PLUG 900.0981-00 HOSE CLIP 28 SMS 2298 DY 23-27 MM 900.1358-00 CONCAVE EC 452.0838-001 OVER PRESSURE AGGR. 200 V 50 HZ 452.1168-50/200 CONCAVE EF 452.0840-001 OVER PRESSURE AGGR. 400 V 50 HZ, 460V 60HZ 452.1168-50/400 CONCAVE F 452.0841-001 OVER PRESSURE AGGR. 525 V 50 HZ 452.1168-50/525 CONCAVE MF 452.0842-001 OVCR PRESSURE AGGR. 550 V 50 HZ 452.1168-50/550 CONCAVE M 452.1754-001 OVER PRESSURE FAN 442.9325-00 SEALING COMPOUND 873.1112-00 AIR FILTER FK 200 912.0219-00 FILLER RING EC 452.0891-901 MOTOR IEC 71-2 0.37KW IM3011 200V 50HZ 972.0845-00 FILLER RING EF, F, MF 452.0898-901 MOTOR IEC 71-2 0.37/0.43KW IM3011 400V 50HZ.460V,60HZ 972.0838-00 SCREW N6S 24X110 8.8 FZV ISO 4014 840.0673-00 MOTOR IEC 71-2 0.37KW IM3011 525V 50HZ 972.0843-00 THREAD TRAY M24X3X1,5D 899.0293-00 MOTOR IEC 71-2 0.37KW IM3011 550V 50HZ 972.0842-00 WASHER BRB 25X45 HB200 847.0124-00 LOCK NUT M36 8 FZB 845.0273-00 SCREW M6S 24X80 8.8 FZV ISO 4017 840.0670-00 SLEEVE 442.9353-01 WEARING PLATE 452.1369-901 WASHER 442.9354-01 SCREW M6S 36X540 8.8 840.1136-00 DISC SPRING 863.0015-00

  Hot Tags : fob price for sandvik crusher parts sandvik crusher wear parts sandvik ch870 sandvik cone crusher for sale customized sandvik cone crusher parts sandvik mantle sandvik hydrocone

  Read More
• What's the head assembly?

  Nov 26, 2025

  The head assembly is the central moving component of a cone crusher. Its core components include the Head, the Head Ball, the Upper Head Bushing, the Lower Head Bushing, and the T-Seal. The material of upper and lower head bushing is bronze, it's protect the the wearing of main shaft.     Primary Functions:   1.  Gyratory Motion: Driven by the eccentric mechanism, the entire head assembly generates a precise gyratory motion. This creates the crushing action necessary to process feed material.   2.  Material Comminution: As the mantle attached to the head moves close to the stationary bowl liner, the rock is subjected to multiple cycles of compression, impact, and breakage within the crushing chamber. This repeated process efficiently reduces the material to the desired size.   3.  Material Discharge: When the head moves away from the bowl liner, the gap increases, allowing the crushed product to gravitate downward and discharge from the bottom of the chamber, continuing its path through the circuit.   What's parts included in the head assembly? Eg: HP400 ONA-7090058015     Pos. Part Number Description Quantity Weight. KG 1 7082404311 HEAD 1 1686 2 1057605158 HEAD BALL 1 80 3 1013340733 STRAP 1 1.4 4 1022147349 HEAD BUSHING, UPPER 1 28 5 1022147350 HEAD BUSHING, LOWER 1 56 6 1063518832 T-SEAL 1 2 7 N80500504 SUPPORT 4 0.5 8 1047098035 KEY BAR 4 1.2 9 7001634020 WASHER, SPRING 1 0.04 10 N01619356 PIN 3 0.3 11 7008010002 THREADLOCKER, HARD 1 0.32 12 7001530420 SCREW, HEXAGONAL 1 0.2 13 N01530104 SCREW, HEXAGONAL 8 0.01 14 1003063291 NUT-LOCK 8 0.1 15 7008010102 GLUE 1 0.38 16 7008010103 ACTIVATOR 1 0.16 17 7001532140 SCREW, HEXAGONAL 8 0.02 18 7001631110 WASHER 8 0.005   How to assemble the head assembly?   Which models do you have? Metso hp 100, HP200, HP300, HP400, HP500, HP700, HP800 crusher, HP900, HP3, HP4, HP5, HP6, Nordberg MP800, Nordberg MP1000, MP1250   All names, marks, models, symbols and descriptions are used for reference purposes only and it is not implied that any of the parts/brands listed are the product of any company other than ONA. We are not agents or distributors for any of the above mentioned brands nor do we have any commercial relationship or association with them.

  Hot Tags : metso hp3 cone crusher chancador mp 1000 metso mp2500 cone crusher partes de un chancador mp1000 metso mx cone crusher metso hp 800 cone crusher

  Read More
• What's the penetrant testing in crusher wear parts?

  Nov 06, 2025

  Penetrant testing, also known as liquid penetrant testing, is a non-destructive testing method widely used in industrial fields such as casting and forging. Its main function is to detect surface defects in mantle and concave, and other wear liners.    Its core principle is very simple and intuitive: it utilizes the capillary action of liquids to detect discontinuous defects with openings on the material surface, such as cracks, pores, and porosity.   Here is a penetrant test report from ONA Casting, for CH660 cone crusher wear parts cone crusher concave liner 442.9356.   Basic Principles and Process   The penetrant testing process is similar to blotting away spilled liquid with a paper towel. The basic steps are as follows:   1. Cleaning: Thoroughly clean the surface of the bowl liner and mantle to be tested, removing any oil, iron filings, paint, etc., ensuring that defect pathways are open.   2. Applying the penetrant: Spray or brush a special liquid (penetrant) containing colored or fluorescent dye onto the working surface and allow sufficient "residence time" (usually a few minutes to tens of minutes). During this time, the penetrant will penetrate into even the smallest surface opening defects through capillary action.   3. Removing excess penetrant: After the residence time, carefully wipe or rinse off any excess penetrant from the working surface. The key point is that the penetrant trapped inside the defect will not be washed away.   4. Applying the developer: Apply a thin layer of developer to the working surface. It is usually a white powder suspension or dry powder, acting like blotting paper, using capillary action to "draw back" the penetrant from the defect to the surface.   5. Observation: After sufficient development time, observe the surface.   Staining method: Under sufficient white light, the defect will show a clear red (or other colored) mark.   Fluorescence method: Under ultraviolet light (black light), the defect will emit a bright yellow-green fluorescence.   Main advantages   High sensitivity: Capable of detecting extremely fine, invisible surface opening defects.   Wide application: Applicable to almost any non-porous material (metals, ceramics, plastics, etc.).   Simple operation: Relatively low equipment cost, simple and intuitive operation process.   Intuitive results: Detection results are directly displayed on the workpiece surface, easy to observe and interpret.   Portable: Can be used for on-site inspection of large equipment or components.

  Hot Tags : concave cone crusher concave crusher gyratory crusher mantle bowl and mantle crusher cone crusher bowl and mantle cone crusher mantle liner

  Read More
• How to choose the correct material for jaw cusher plate?

  Oct 30, 2025

  Metso C80 Jaw crusher are widely used in mining. Their main wear-resistant component is the jaw plate. However, many users lack dedicated engineers or, due to purchasing older, secondhand machines, cannot find relevant information and have little understanding of the materials used for the jaw plates and their heat treatment processes. Today, we will provide a detailed introduction to the practical applications of crusher jaw plates.   The jaw crusher operates on a reciprocating compression principle: the motor drives the belt and pulley, which in turn moves the moving jaw up and down via an eccentric shaft. When the moving jaw rises, the angle between the jaw crusher toggle plate and the moving jaw increases, pushing the moving jaw plate closer to the fixed jaw plate. Simultaneously, the material is crushed or split, achieving the crushing purpose. When the moving jaw descends, the angle between the jaw crusher toggle plate and the moving jaw decreases, and the moving jaw plate, under the action of the return rod and spring, moves away from the fixed jaw plate. At this point, the crushed material is discharged from the bottom of the crushing chamber. With the continuous rotation of the motor, the moving jaw of the crusher performs periodic movements to crush and discharge materials, achieving mass production.   Jaw crusher wear plates are divided into moving jaw plates and stationary jaw plates(Some regions call it mantle concave). Depending on the model of the jaw crusher, there are various tooth profile sizes, generally made of high-manganese steel, i.e., high-manganese steel jaw plates. High-manganese steel has a history of over 100 years. Under conditions of strong impact abrasive wear, high-manganese steel has excellent wear resistance and is therefore commonly used in machinery and equipment in mining, building materials, and thermal power plants. Applicable materials include coal gangue, feldspar, barite, and basalt. Under low-impact conditions, the work hardening effect is not significant, and high-manganese steel cannot fully utilize its material properties.   Research has found that three major factors affect the wear resistance of high-manganese steel jaw plates during the casting process: material, purity of raw materials, and heat treatment process. Material is the fundamental element determining the wear resistance of high-manganese steel jaw plates. Adding chromium to high-manganese steel (Mn18Cr2) directly increases its wear resistance. Some manufacturers use recycled high-manganese steel as raw material, or mixed in the new raw material, which introduces harmful sulfur and phosphorus elements into the newly cast jaw plates, affecting their service life. Finally, regarding the heat treatment process of high-manganese steel jaw plates, rapid heating at low temperatures can cause cracking. Therefore, the correct procedure is to maintain a heating rate of <80℃/h below 350℃ and <100℃ above 750℃, when the casting is in a plastic state and can be rapidly heated. At 1050℃, determine the holding time based on the casting thickness (usually 1 hour/25mm); then rapidly raise the temperature to approximately 1100℃ and hold for half an hour before removing from the furnace. The casting must be immersed in water as soon as possible after removal from the furnace; the time between removal and immersion should not exceed 45 seconds, and even shorter in winter. Slow heating at high temperatures, insufficient holding time, and excessively long intervals between removal and immersion (not exceeding 0.5 minutes) all negatively impact the quality of the high-manganese steel jaw plates.   Striving for greater wear resistance in jaw plates does not necessarily require continuously increasing the proportion of high-manganese steel. Mn13Cr2 and Mn18Cr2 are suitable for most jaw plates, while Mn22Cr2 is suitable for extremely cold regions. For regions with suitable temperatures, choosing Mn22Cr2 compared to Mn18Cr2 will not only fail to significantly extend the service life but will also increase procurement costs. For better results, consider inlaying with cemented carbide, which can achieve a service life 1.5-1.8 times that of Mn18Cr2.   If you are unsure which material is best for your needs, please contact us. Tell us about your raw materials being crushed and the desired results. Our professional engineers will recommend the most cost-effective solution for you.

  Hot Tags : stone crusher jaw plate jaw plate for crusher manganese jaw plate jaw plate crusher metso c96 jaw crusher toggle plate for jaw crusher

  Read More
• What's the Metso Barmac 840 STD/DTR Rotor?

  Oct 23, 2025

  Metso's Barmac 840 rotor is the most wear parts of the Barmac B7150se VSI crusher, commonly used in quarries and stone production plants. "840" refers to the rotor's outer diameter, or 840 mm.    Function The rotor's primary function is to accelerate the feed material and fling it against a fixed material bed ("rock-on-rock" anvils) or a surrounding feed bed. This high-speed impact crushes the rock along its natural fissures, producing high-quality cubic aggregate.   1. Material Acceleration: The raw material enters the crusher through the feed pipe and reaches the center of the rotating rotor.   2. Distribution and Ejection: The rotor's tip captures the material and ejects it outward at high speed through the rotor outlet.   3. Crushing Impact: The ejected material impacts the dense material layer accumulated on the surrounding feed ring and cascade rings, causing the material to break.   The "rotor" isn't a single component; it's a rotor assembly consisting of a rotor body and wear parts for Barmac B7150se vsi. Key components of the Barmac 840 rotor include:   Rotor body: The primary cast iron or steel structure that supports all other components. It serves as the backbone of the entire assembly.   Rotor tip (wear parts): These are replaceable tungsten carbide components bolted to the rotor body. They are the primary wear parts that directly contact and propel the feed material. They require periodic replacement.   Rotor outlet: The open passage between the rotor tips through which the accelerated material exits the rotor.   Shaft and bearings: The rotor assembly is mounted on a heavy shaft supported by large bearings for Metso Barmac B7150se vsi, enabling high-speed rotation (typically around 1,500-2,000 RPM).   When do wear parts need to be replaced?   Decreased output/capacity: The crusher is not processing as much material as before.   Poor product shape: An increase in flaky or elongated particles.   Excessive vibration: This may be due to uneven wear on the rotor tip tips, leading to imbalance.    Increased operating noise   The following is a list of the main components of the Barmac 840 DTR and STD:   840 DTR № Part Number  Description Qty Weight. KGUnit 1 B90334105N Bare Rotor 1 370 2 B96394049O Rotor Tip Set  3 5.2 3 B90394060A Short Backup Tip Set 1 1.6 4 B90394055B Trial Plate 1 1.5 5 B96394060B Long Backup Tip Set 1 3.2 6 B96334170C Top wear plate lipped  1 55 7 B96334180A Bottom wear plate lipped  1 58 8 B96394150O/B Bolt Set 3 0.15 9 B963940425A Bolt  1 0.2 10 B96394150N Cavity Wear Plate Outer 4 7.5 11 B96394150O  Cavity Wear Plate Middle 2 7.5 12 B96334030E  Feed Eye Ring 1 21 13 B96334135A Upper Wear Plate 1 19 14 B96334140A Lower Wear Plate 1 25.2 15 B962S7040B Feed Tube 1 14 16 B96394120E Distributor Plate 1 33 840 STD  № Part Number  Description Qty Weight. KGUnit 1 B96334105L Bare Rotor 1 253 2 B96394049O Rotor Tip Set  2 5.2 3 B96394055B Trial plate set  1 3.5 4 B96394060B Long Backup Tip Set 1 3.2 5 B96334170C Top wear plate lipped  1 55 6 B96334180A Bottom wear plate lipped  1 58 7 B96394150O/B Bolt Set 3 0.15 8 B963940425A Bolt  1 0.2 9 B96394150N Cavity Wear Plate Outer 4 2.5 10 B96334135A Upper Wear Plate 1 19 11 B96334140A Lower Wear Plate 1 25.2 12 B96334030E  Feed Eye Ring 1 21 13 B962S7040B Feed Tube 1 14 14 B96394120E Distributor Plate 1 33   If you have any needs, you can contact us at any time.   All names, marks, models, symbols and descriptions are used for reference purposes only and it is not implied that any of the parts/brands listed are the product of any company other than ONA. We are not agents or distributors for any of the above mentioned brands nor do we have any commercial relationship or association with them.  

  Hot Tags : metso barmac 7150 barmac 7150 barmac b series barmac b6150se barmac b9100se barmac b6150

  Read More
• What's the VTM (Vertical Tower Mills) Liner?

  Oct 21, 2025

  VTM Liners: Protect Your Vertical Grinding Mill's Core   In ONA Casting, we not only provide wear parts for crusher, but also produce many high chrome products. VTM (Vertical Tower Mills) Liners which suit to Metso mining equipment are critical wear-resistant components installed inside the vertical grinding mill. Their primary function is to protect the mill's inner shell from severe abrasion and impact caused by the grinding media and ore.     Key Features & Benefits:   Superior Wear Resistance: Manufactured from advanced high-chromium cast iron, they withstand continuous abrasion, significantly extending service life.   Optimized Grinding Efficiency: The liner profile is designed to enhance the grinding media motion, leading to better material processing and particle size distribution.   Reduced Operating Costs: Durable liners decrease the frequency of shutdowns for maintenance, maximizing your mill's uptime and productivity.   Precision Engineering: Ensures a perfect fit for easy installation and stable performance within the mill chamber.   Inspection: Chemistry, Hardness, Magnetic Particle Examination, Dimension inspection report.     At ONA Casting, we produce VTM liners with precise dimensions and optimal metallurgy to ensure they deliver maximum protection and value for your grinding operations. We also produce cast iron plate blow bar for impact crusher wear part, casting concave mantle for cone crusher spare wear parts, concrete mixer parts, etc.

  Hot Tags : cheap manganese cone crusher parts price china impact crusher parts price china impact crusher parts suppliers china impact crusher wear parts crusher wear parts concave bowl liner in kyrgyzstan extec cone crusher wear parts

  Read More
• How to understand the material inspection report?

  Oct 11, 2025

  I believe many customers know that when purchasing crusher wear-resistant parts, you can ask suppliers to provide material inspection reports. The material inspection reports provided by different suppliers are slightly different. Even the inspection reports of the same manufacturer may have some differences in different orders. Today we will briefly describe the meaning of each chemical element in the material inspection report.   Here is a sample suit for Nordberg HP300 feed plate, PN: 1055981158, material Mn13Cr2. (This material also used for crusher mantle and crusher concave, China jaw plate, cheek plate jaw crusher, etc.)   As the name suggests, Mn13Cr2 means that the high manganese steel content is 13% and the high chromium content is 2%. Therefore, as long as the content values ​​are within the range, there is no problem.   The advantages of high manganese steel are wear resistance and good toughness, but high chromium steel has better wear resistance and is more expensive. The disadvantage of high chromium steel is that it is very brittle and the product is easy to break during use, so the more chromium steel, the better. The life of Cr is 2-2.5 times that of Mn.   P and S stand for phosphorus and sulfur respectively. They are impurities, so the lower their content, the better.   In addition to the above materials, we often encounter Mo. Its function is to increase the fineness of tissue particles and increase toughness, but the price is very high.   Titanium carbide, also known as cemented carbide, is expensive, but its lifespan is 1.5-1.8 times that of Mn.   If you are not sure what material is suitable for you, you can contact us and tell us the raw materials you want to crush, and our engineers will recommend the right material for you.    

  Hot Tags : metso c130 jaw crusher metso c80 jaw crusher metso mantle metso gp220 cone crusher metso c120 jaw crusher manual metso c106 jaw crusher specs

  Read More
• What's the production process of crusher wear parts?

  Oct 03, 2025

  The production process for crusher wear parts (like cone crusher jaw plates, metso cone crusher parts mantles, metso cone liners, hammers, etc.) is a precise and multi-stage operation designed to create parts that are extremely wear-resistant and tough.   Here is a detailed breakdown of the typical production process: Step 1: Pattern/Mold Making · Process: A physical model (pattern) of the part is created, typically from wood.  · Purpose: This pattern or mold defines the exact shape and dimensions of the final cast part. Its accuracy is critical. Step 2: Molding and Casting 1. Mold Creation: Sand molds are commonly used. The pattern is packed in special foundry sand mixed with a binder (like clay or resin) to create a firm mold cavity in the shape of the part. The mold is typically made in two halves (cope and drag). 2. Melting: Raw materials (scrap steel, pig iron, and specific alloys like chromium, molybdenum, and manganese) are melted in a large furnace (e.g., electric arc furnace or induction furnace) at temperatures exceeding 1500°C (2732°F). 3. Pouring: The molten metal is poured into the prepared mold cavity and left to solidify. Step 3: Shakeout and Cleaning · Shakeout: Once the casting has cooled and solidified, the sand mold is broken apart, and the raw casting (called a "casting with gates and risers") is removed. · Cleaning: The casting is then cleaned to remove all residual sand and the excess metal from the pouring channels (gates) and feeders (risers). This is often done using shot blasting (propelling small metal beads at high velocity) or arc air gouging. Step 4: Heat Treatment This is a crucial step that determines the final mechanical properties of the part, such as hardness, strength, and toughness. · Process: The casting is subjected to a carefully controlled sequence of heating and cooling. · Typical Cycle:   · Quenching: The part is heated to a very high temperature and then rapidly cooled (quenched) in oil or air. This creates a very hard, but brittle, microstructure.   · Tempering: The quenched part is reheated to a lower temperature and held for a specific time before cooling. This reduces brittleness and relieves internal stresses, achieving the perfect balance of hardness and toughness required to withstand impact and abrasion in a crusher. Step 5: Machining and Finishing · Process: The heat-treated casting is machined to achieve precise final dimensions and tolerances. This is typically done on CNC (Computer Numerical Control) machines like lathes, milling machines, and drills. · Purpose: To ensure the part fits perfectly into the crusher. Key contact surfaces, bolt holes, and mating features are machined to exact specifications. Step 6: Quality Control and Inspection Quality checks are performed throughout the entire process. · Chemical Analysis: A sample of the molten metal is analyzed via spectrometry to ensure the alloy composition is correct. · Dimensional Inspection: Finished parts are measured with calipers, micrometers, and CMMs (Coordinate Measuring Machines) to verify they match the engineering drawings. · Hardness Testing: The surface hardness is checked at multiple points using a Brinell or Rockwell hardness tester to ensure it meets the required standard. · Non-Destructive Testing (NDT): Methods like Magnetic Particle Inspection (MPI) or Dye Penetrant Inspection (DPI) are used to detect surface or sub-surface defects like cracks or inclusions that are not visible to the naked eye. Step 7: Painting and Marking · The finished part is often painted with a rust-preventative primer for protection during storage and shipping. We can customized color as your needs. · Important information (part number, heat number, brand) is stamped or painted on the part for identification. Step 8: Packaging and Shipping The parts are securely packaged, usually in wooden pallet or iron pallet, to prevent damage during transportation to the customer. Summary of Key Materials Used: The specific material chosen depends on the application (e.g., crushing granite vs. recycling concrete). · High Manganese Steel (Mn14, Mn18, Mn22): The classic material that work-hardens under impact, becoming harder as it is used. · High Chromium Steel (Cr26): Excellent abrasion resistance but lower impact toughness. Used for highly abrasive conditions with less impact. · Alloy Steel: A combination of various elements (like Cr, Mo, Ni) to create a balance of properties for specific crushing challenges.

  Hot Tags : metso jaw crusher parts jaw crusher plates jaw crusher parts cone crusher liners cone crusher mantle metso cone crusher hp 300

  Read More
• How to choose the correct blow bar material?

  Sep 25, 2025

  Choosing the wrong crusher blow bars material will have a series of serious negative impacts on the operation and economic benefits of an impact crusher. So, how should we choose the correct material for impact crusher parts?   1. High-manganese steels: MN13CR2, MN18R2, and MN22CR2. Mn steel offers advantages in wear resistance and toughness, but its wear resistance is not as good as high-chromium steels.   2. High-chromium steels: CR22 or Cr26. Cr steel offers advantages in wear resistance, but its disadvantage is that it makes the blow hammer brittle (poor toughness), unable to absorb impact energy during crushing and prone to breakage.   Impacts: Secondary Equipment Damage: Broken hammer fragments fly at high speed, potentially damaging the crusher liner, impact frame, and even the rotor, resulting in high repair costs and extended downtime.   Safety Hazards: Flying fragments pose a serious safety hazard, potentially harming equipment and personnel.   3. Materials with added Mo include: CR27MO0.5, CR27MO1, and CR27MO2.  The advantage of Mo is that it increases microstructure and toughness, but it comes at a high price.   4. Other Materials: Depending on the application environment and requirements, titanium carbide, ceramics, and other materials can also be added to extend service life. Although relatively expensive, the overall cost-effectiveness is significant. Different Heat Treatment:       How to interpret the material report provided by the manufacturer? In addition to ensuring that the main material components, such as Mn and Cr, match the quoted value, the lower the P and S values, the better; these are considered impurities.   Common Misconception: Higher hardness is not always better. For applications involving high impact and hard materials (such as granite crushing), sufficient toughness (e.g., using high-toughness alloy steel) is crucial. For applications involving high abrasiveness but low impact (e.g., limestone crushing), a higher hardness (e.g., using high-chromium cast iron) is recommended.   The correct selection method: Provide accurate information: Provide ONA Casting with the crusher model, material type, hardness, feed size, and expected output. ONA's professional engineers can recommend the most suitable material, such as high-chromium cast iron, high-manganese steel, and alloy steel.   If price is the only consideration, the savings in blow bars purchase costs may far outweigh the significant losses caused by frequent downtime, equipment damage, and reduced production.   Therefore, choosing the right material is crucial.   Some blow bars suit to Metso: NP1007: 7062251011 NP1110: 7062251250 NP1213: 7062252506 NP1315: 7062252760 NP1520: 7062255000 Z036: MM0230680 NP1315/1415 PN: 7062252760 NP1213 Suit to Metso Nordberg. APS4054 PN: APS4054F.2.1B-2 Suit to Sandvik Original Dimensions Inlaid ceramics Increase using life.  

  Hot Tags : blow bar impact crusher blow bars for impact crusher impact crusher blow bar horizontal shaft impactor blow bars hazemag blow bars blow bar crusher

  Read More
• How does the HP300 Crusher Operate Normally?

  Sep 11, 2025

  At a customer site in China, an Nordberg HP300 cone crusher was suffering repeated trips: lubrication and hydraulic unit and PLC-cabinet temperatures were climbing above safe limits and destabilising the machine.       Our factory-trained service team carried out a full maintenance intervention, replacing needed critical components with ONA-made parts. The HP300 crusher is now operating normally.   ONA can not only repair and refurbish crushers, but also provide all their parts. Eg. HP300 bowl liner, cone crusher mantle, jaw crusher liner, crusher breaker plate   Shared by engineer William Ji.   Note: Metso® and HP300® are registered trademarks of Metso Corporation. The units serviced were rebuilt using aftermarket parts produced, supplied and warranted solely by ONA in China; they are not OEM originals and have no OEM affiliation, endorsement or warranty.

  Hot Tags : lokotrack lt300hp cone crusher hp300 nordberg cone crusher hp300 cone crusher crusher concave hp300 crusher

  Read More
• What is daily maintenance for a jaw crusher?

  Sep 05, 2025

  The jaw crusher is a core piece of crushing equipment in industries like mining and construction. Its stable operation directly impacts production efficiency. Routine maintenance not only reduces downtime due to failures but also significantly extends the equipment's service life.   Pre-Startup Inspection Check the tension of the V-belt, jaw plate, and the tightness of all bolts. Inspect the equipment casing and frame for cracks and loose bolts.  Check the oil level in the hydraulic tank to ensure it is between the oil gauge lines. Check the hydraulic quality and verify that the hydraulic pump is operating properly and that there are no leaks in the oil pipes.  Clear any remaining material from the feed inlet to avoid stalling during startup. Check the discharge opening clearance to ensure it meets production requirements to prevent substandard crushing or equipment overload.   Inspection During Operation Bearing temperature is within the normal range. The tie rod spring is normal.     Regular Maintenance After Shutdown Lubricate every 40 operating hours. Lubricate the discharge opening adjustment device and inspect the rubber cover (for mechanical adjustment of the discharge opening). Inspect the cheek plates for wear and replace if necessary. Check the toggle plate for alignment, straightness, and cracks. Inspect the toggle plate seat and rubber seal, and clean the toggle plate seat surface if necessary. Check the tightness of the frame mounting bolts. Inspect the flywheel. Inspect the rubber shock absorber pads for wear.  

  Hot Tags : metso jaw crusher parts Sandvik CJ612 Jaw Crusher metso c125 jaw crusher sandvik jaw plate C110 Jaw Crusher Parts Mining Machine C120 Crusher

  Read More
• What's the parts in Sandvik CV229 Rotor Assembly?

  Sep 05, 2025

  Sand making machines are generally only used in stone mines and stone factories. Rotor assembly is the complete spinning-rotor assembly that fits inside VSI (Vertical Shaft Impact) crusher.     Which mian parts in the Sandvik cv229 rotor assembly?   A high-strength welded plate hub that carries the tungsten-carbide-tipped wear parts (rotor tips, back up tip sets, trial plate etc.) and accelerates the feed rock to high speed so the particles shatter against the anvils and produce cubical sand or aggregates.     Other components（feed tube, feed eye ring, distributor plate, cavity wear plate, upper/lower wear plate）are made of high chromium alloy Cr26Mo0.5. Top/bottom wear plate are made of high-strength wear-resistant plate.   What's the using life for each part?   In general: Rotor tip/cavity wear plate: Around 5/7/10 days Others: About 1 month   Below is the anatomy diagram of CV229:   Pos No. Qty PN Description 1 1 488.0219-901 High profile rotor body 2 1 488.0029-001 Taper lock 3 1 488.0361-901 Lower wear plate set 4 1 488.0360-901 Upper wear plate set 5 1 488.0076-001 Distributor plate 6 1 488.1513-901 Distributor locating pin set 7 1 488.1644-901 Cavity wear plate set Turbo (upper) 8 1 488.1703-901 Cavity wear plate set Turbo (middle) 9 1 488.1704-901 Cavity wear plate set Turbo (lower) 10 1 488.0362-901 Trail plate 330 set 11 3 488.1456-901 Turbo tip set 110 mm (hard) 12 1 488.0368-901 Backup tip set 13 1 488.0369-901 Top wear plate set 14 8 840.0077-00 Screw M6S 20x50 8.8 ISO 4017 15 1 841.0502-00 Screw MC6S 24x60 12.9 16 1 488.0841-001 Top plate  

  Read More