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Montan wax additives from Völpker Spezialprodukte
Seohyun Techchem is the Korean distributor of VOELPKER.
With almost 120 years of experience in the production of montan and specialty waxes,
VOELPKER is one of the most experienced wax producers in Europe.
VOELPKER develops and produces tailor-made wax derivatives whose chemical functionalities
and application properties are precisely adapted to the specific use
At the heart of the WARADUR® (the subject of this brochure) and CEVO® special wax additives
from VOELPKER is their unique multifunctionality.
This enables the simultaneous resolution of different processing problems.
It leads to improved surface quality and filler or pigment dispersion,
improved flow properties and the reduction of friction peaks.
WARADUR® montan wax derivatives also enable the production of particularly
high-quality compounds containing recyclate
Representative product
Product Name | Chemical Name | Specification | Application |
Montan wax E | Ethylene Glycol Ester Montanic Acid | - | Flow accelerator / Dispersant / Surface improvement agent |
Montan wax OP | Butylene Glycol Ester Montanic Acid | - | Flow accelerator / Dispersant / Surface improvement agent |
Montan wax GE | Glycol Ester Montanic Acid | - | Flow accelerator / Dispersant / Surface improvement agent |
Montan wax S | Montanic Acid | - | Flow accelerator / Dispersant / Surface improvement agent |
PHYSICAL PROPERTIES
Analytical data: typical values | Registration numbers of montan waxes | ||||||
Montan wax additive | Drop point [°C] | Melting range - main peaks [°C] | Acid value [mg KOH/g] | Viscosity @ 120° C [mPas] | Typical applications | REACh registration number | CAS number |
WARADUR® S | 86 | 80 | 140 | 15 | External release agent for thermosets and engineering plastics | 01-2119480151-48-0001 | 68476-03-9 |
WARAMONT CA | n.a. | 109 | 5 | n.a. | Lubricant for injection moulded Polyamides (PA) and Polylactic acid (PLA) | 01-2119967781-25-0001 | 68308-22-5 |
WARADUR® GE | 81 | 77 | 21 | 35 | Internal and external lubricant for PC, PBT (filled) | 01-2119969450-34-0001 | 68476-38-0 |
WARADUR® GSM | 79 | 53, 78 | 14 | 16 | External lubricant for rigid PVC processing | 01-2119969452-30-0001 | 2215088-68-7 |
WARADUR® E | 85 | 80 | 18 | 15 | Internal and external lubricant for PA, TPU, PBT, PC, PS, PVC, epoxy resins, phenolic resins | 01-2119480145-41-0001 | 73138-45-1 |
WARADUR® ESM | 82 | 75, 81 | 32 | 12 | Internal and external lubricant for PA, PBT, PC, PS, PVC, epoxy resins, phenolic resins | 01-2120763810-55-0000 | 2279155-46-1 |
WARADUR® OP | 101 | 67, 82, 100 | 12 | 250 | Internal and external lubricant for PA, TPU, PBT, PC, PS, PVC, epoxy resins, phenolic resins | 01-2119480144-43-0001 | 73138-44-0 |
WARADUR® OPplus | n.a. | 104 | 4 | n.a. | Multi-purpose additive suitable for PA and other engineering plastics, PVC, thermosets, etc. | 01-2119480144-43-0001 | 73138-44-0 |
WARADUR® GSA | 78 | 63, 66 | 19 | 55 | Lubricant, e.g. for Ca/Zn stabilised rigid PVC extrusion grades and PMMA; shows a very high compability and extreme low volatility | 01-2119969451-32-0001 | 73246-99-8 |
Wax Additives for epoxy (EMC)
montan wax series
Series | Analytical data: typical values | Registration numbers of montan waxes | ||||||||||
Montan wax additive C | Chemical nature | Plastic Series | Plastic Recycling Series | Coating Series | Polish Series | Cosmetic + Pharma Series | Drop point [°C] | Melting range - main peaks [°C ] | Acid value [mg KOH/g] | Viscosity 120°C [mPas] | REACh Registration number | CAS Number |
WARADUR® S | Montanic acids (linear, saturated), mainly C28-32 | 86 | 80 | 140 | 15 | 01-2119480151-48-0001 | 68476-03-9 | |||||
WARAMONT CA | Calcium montanate | n.a. | 109 | 5 | n.a. | 01-2119967781-25-0001 | 68308-22-5 | |||||
WARADUR® GE | Glycerol esters of montanic acids | 81 | 77 | 21 | 35 | 01-2119969450-34-0001 | 68476-38-0 | |||||
WARADUR® GSM | Glycerol hybride esters of montanic and oleo acids | 79 | 53, 78 | 14 | 16 | 01-2119969452-30-0001 | 2215088-68-7 | |||||
WARADUR® E | Ethylene glycol esters of montanic acids | 85 | 80 | 18 | 15 | 01-2119480145-41-0001 | 73138-45-1 | |||||
WARADUR® ESM | Ethylene glycol hybride esters of montanic and oleo acids | 82 | 75, 81 | 32 | 12 | 01-2120763810-55-0000 | 2279155-46-1 | |||||
WARADUR® OP | Butylene glycol esters of montanic acids; Calcium montanate | 101 | 67, 82, 100 | 12 | 250 | 01-2119480144-43-0001 | 73138-44-0 | |||||
WARADUR® OPplus | Butylene glycol esters of montanic acids; high content of Calcium montanate | n.a. | 104 | 4 | n.a. | 01-2119480144-43-0001 | 73138-44-0 | |||||
WARADUR® GSA | Complex esters of montanic acids | 78 | 63, 66 | 19 | 55 | 01-2119969451-32-0001 | 73246-99-8 | |||||
WARADUR® XE | Ethylene glycol esters of montanic acids | 85 | 80 | 18 | 15 | 01-2119480145-41-0001 | 73138-45-1 | |||||
WARADUR® ELE | Ester wax on the basis of montanic acids, proprietary mixture with nonionic emulsifiers | 87 | 77, 82 | 25 | 15 | 01-2119480145-41-0001 | 73138-45-1 | |||||
WARADUR® KME | Ester wax on the basis of montanic acids, proprietary mixture with nonionic emulsifiers | 85 | 79, 82 | 20 | 15 | 01-2119480145-41-0001 | 73138-45-1 | |||||
WARADUR® B | Montanic acids (linear, saturated), mainly C28-32 | 88 | 83 | 94 | 16 | 01-2119480151-48-0001 | 68476-03-9 | |||||
WARADUR® ESL | Ethylene glycol esters of montanic acids | 85 | 79, 84 | 32 | 18 | 01-2119480145-41-0001 | 73138-45-1 | |||||
WARADUR® L | Montanic acids (linear, saturated), mainly C28-32 | 87 | 76, 81 | 121 | 15 | 01-2119480151-48-0001 | 68476-03-9 | |||||
WARADUR® LG | Ethylene glycol hybride esters of montanic and oleo acids | 83 | 63, 76, 81 | 31 | 14 | 01-2120763810-55-0000 | 2279155-46-1 | |||||
WARADUR® LGE | Ester wax on the basis of montanic acids, proprietary mixture with nonionic emulsifiers | 85 | 79, 83 | 25 | 16 | 01-2120763810-55-0000 | 2279155-46-1 | |||||
WARADUR® LS | Montanic acids (linear, saturated), mainly C28-32 | 86 | 76, 81, 84 | 128 | 13 | 01-2119480151-48-0001 | 68476-03-9 |
Plastic series & Plastic recycling series
Product | Polymers | Brochure |
CEVO®-process A-3100 | PA6, PA6/66, PA66/6 and copolymers; also blends with other polymers(e.g. PC) | View details |
CEVO®-process A-3105 | PA6, PA66, PA6/66, PA66/6 and PA12; also PP, PC and other engineering plastics and their blends | View details |
CEVO®-process A-3110 | PA6, PA66, PA6/66, PA66/6 und PA12, blends | View details |
CEVO®-process J-3400 | Polymers or polymer blends with high melt viscosities: (PS, ABS, PLA, PC, POM, …) | View details |
CEVO®-process J-3405 | TPU, other engineering plastics | View details |
CEVO®-process J-4055 | Engineering plastics: PET/PBT, PP, PS, POM, PA (PA6, PA66), release agent, slip agent and anti-fog agent in thermoplastic polyurethane (TPU). |
View details |
CEVO®-process B-3200 | PO (PP) | View details |
CEVO®-process B-3680 | PO | View details |
CEVO®-stab B-5200 | PO | View details |
CEVO®-stab F-5510 | POM | View details |
CEVO®-master D-2050 | PC | View details |
CEVO®-master B-6000 | PO | View details |
CEVO®-clean J-1819 | all common thermoplastics | View details |
WARADUR C 60
Oxidised Fischer-Tropsch wax. Straight-chain wax with low viscosity in the melt.
Molecular weight 500 – 1000. WARADUR® C 60 contains free wax acids and wax acid esters.
Owing to the presence of polar groups and their low viscosity, WARADUR® C grades are dispersants for pigments, dyes,
other waxes and further components in molten masses and solvent-based systems.
In addition they are excellently suited for the preparationof non-ionic, aqueous preparations.
LOXIOL LUBRICANTS FOR PVC PROCESSING
Antiblocking-/Antifogging-/release agent FOR PVC PROCESSING
Antistatic agent for PVC processing
PE-Polyethylene Additives
PP-Polypropylene Additives
PS-Polyttyrene Additives
ABS-Acrylnitril butadien styrol copolymere Additives
PMMA-Polymethylmethacrylate Additives
PC-Polycarbonate Additives
PA-Polyamide Additives
POM-Polyoxymethylene Additives
PET-Polyethyleneterephthalate Additives
PBT-Polybutyleneterephthalate Additives
PVC cold-resistant plasticizer
Please click on the product to download the PDF file.
CPVC & PVC external lubricant
Please click on the product to download the PDF file.
Polymeric plasticizer from 100% bio-materials
[Applied plastic]
PLA & Blends e.g. with PHA‘s
PLA/PBAT blends to reduce the share of PBAT
PLA containing high load of natural fillers
TPS
PVC
[Market valuation]
Excellent compatibilizer between polymer and filler
Well compatible to polymer even up to 20 % dosage
Multiple uses for the compounds thanks to high elongation at break and improved impact resistance
High flowability in the process
Odor free
[Brochure]
Please click on the product to download the PDF file.
Silane coupling agent, Water repellent, Modifier, Crosslinking agent, etc.
Industry | Product Selection Guide |
Adhesives & Sealants | SiSiB® silane adhesion promoters are bifunctional organosilicone compounds which act as molecular bridges between the polymer matrix of an adhesive or sealant and the substrate, either inorganic or organic. SiSiB® SILANES can improve adhesive or sealant adhesion significantly. SiSiB® SILANES react chemically and promote adhesion: (1) between the base polymer in a sealant and the inorganic fillers in the formulation and / or (2) between the base polymer and the substrate. SiSiB® silane coupling agents are used to bind the organic polymers to a mineral or siliceous filler, increase adhesion between fillers and polymers in adhesives and sealant. SiSiB® Silane Water Scavengers / Drying Agents. Alkoxysilanes react very rapidly with water; they are usually used to capture excess moisture in sealants and adhesives. SiSiB® PC6110, Vinyltrimethoxysilane is the most common moisture scavenger, due to the electron interactions of the vinyl group it reacts with moisture faster than other alkoxy silanes, enabling it to function as a moisture scavenger in the presence of other silanes incorporated as adhesion promoters, crosslinkers or coupling agents. The amount of silane added will depend on the water content of the formulation constituents. SiSiB® Silane Crosslinkers (Crosslinking Agents). SiSiB® silanes can be used to crosslink polymers such as acrylates, polyethers, polyurethanes, and polyesters. SiSiB® Silanol Terminated Silicone Polymer for RTV. The silanol (-OH) terminated silicone polymer is the basis for the formulation of one-component, moisture curing RTV silicones and two-component, condensation curing RTV silicone compounds. The synthesis of silicone polymer is a multistep process beginning with elemental silicon. SiSiB® Silane Endcappers. In recent years, silane-terminated polyurethanes (STPs) have become increasingly attractive to manufacturers of sealants and adhesives thanks to a unique combination of excellent cohesive strength and good adhesive properties. STPs can be prepared by reacting traditional NCO-terminated polyurethane prepolymers with secondary aminosilanes. Those aminosilanes react very fast with free isocyanate groups and lead to a high converted silane-endcapped product. Side reactions can be significantly reduced. SiSiB® Fumed Silica as reinforcing agent. Typical products: SiSiB® PC1108, SiSiB® PC1118, SiSiB® PC2000, SiSiB® PC1100, SiSiB® PC1110, SiSiB® PC1200, SiSiB® PC1300, SiSiB® PC3200, SiSiB® PC3100, SiSiB® PC4100, SiSiB® PC2300, SiSiB® PC5131, SiSiB® PC8131, SiSiB® PC6110, SiSiB® PC6120, Silane Crosslinkers: SiSiB® PC7130, SiSiB® PC7133, SiSiB® PC7500, SiSiB® PC7530, SiSiB® PC7600, SiSiB® PC7930 Silane Polymer: SiSiB® PF1070-5000, SiSiB® PF1070-20000, SiSiB® PF1070-50000, SiSiB® PF1070-80000 |
Artificial Marble / Quartz | Silianes are used as modifying agents for resins used in artificial marble / stone, and thus are helping to improve its functions. Benefits: Enhanced mechanical properties Improved filler dispersion Better wetting of the filler surface Improved hydrophobicity Improved UV resistance SiSiB® PC4100, SiSiB® PC4200, SiSiB® PC4300, SiSiB® PC4400, SiSiB® PC4600 |
Building Protection | Water repellents. Silanes and siloxanes are capable of penetrating and forming a protective, repellent layer several millimeters deep within a substrate, with little appreciable effect on the water vapor transmission rate through pores and capillaries. Silane: PC5821, SiSiB® PC5822, SiSiB® PC5861, SiSiB® PC5862, SiSiB® PC5881, SiSiB® PC5882, SiSiB® PC5901, SiSiB® PC5902, SiSiB® PC5931, SiSiB® PC5932, SiSiB® PC5912, SiSiB® PC5952; Siliconate: SiSiB® SiSiB® PS1940 (SiSiB® PSI0740), SiSiB® PS1130; Fluid: SiSiB® PF2020. Easy-to-clean surface. SiSiB® PC9742, SiSiB® PC9751 |
Paintings & Coatings | Moisture initiated crosslinking of resins, improved wet adhesion, chemical and corrosion resistance, weatherability, pigment dispersion and scrub resistance. SiSiB® PC1100, SiSiB® PC1106, SiSiB® PC1108, SiSiB® PC1110, SiSiB® PC1120, SiSiB® PC1200, SiSiB® PC1220, SiSiB® PC1300, SiSiB® PC2300, SiSiB® PC3100, SiSiB® PC3200, SiSiB® PC4100, SiSiB® PC5131, SiSiB® PC5132, SiSiB® PC5410, SiSiB® PC5420, SiSiB® PC5430, SiSiB® PC5902, SiSiB® PC5932, SiSiB® PC5931, SiSiB® PC6110, SiSiB® PC6120, SiSiB® PC8131, SiSiB® PC8132 |
Contact Lenses | Surface wettable silicone hydrogels SiSiB PC4108: Methacryloxypropyltris (trimethylsiloxy) silane, TRIS |
Cosmetics | Silane treatment is a shear-resistant coating that imparts a regular, highly hydrophobic surface to cosmetic pigments and powders. The chemically bound coating ties up reactive sites on pigment particle surfaces eliminating the potential for chemical reactivity with other components of a system. These silicone-based compounds are used in cosmetics to soften, smooth, and moisten. They make hair products dry more quickly and deodorant creams SiSiB® PC5902, Silicone Fluids, SiSiB® PC9240 (D3), SiSiB® PC9100 (D4), SiSiB® PC9105 (D5). |
Dental Surgery | Silane coupling agents are used in dental restoration, such as ceramic repairs of onlays, inlays, crowns and bridges. SiSiB® PC4100, SiSiB® PC5460 |
Electronics / Semiconductors | In chip manufacture, high tetraethyl orthosilicates are important raw materialss and are preferably used for generating dielectric layers by CVD. SiSiB® PC5030, SiSiB® PC5400, SiSiB® PC5410, SiSiB® PC5420, SiSiB® PC9210 |
Fiber Optics / Quartz Glass | Raw material for synthetic quartz and optical fiber Quartz glass is highly pure, so that it has a higher transparency to light than ordinary plate glass. For this characteristic, quartz glass is utilized for optical fiber to conduct digital signal of light. High purity SiSiB® PC5400 Tetrachlorosilane |
Fillers & Pigments | Improved coupling of resins with fillers and bettter filler dispersion in thermoset and thermoplastic resins. Foundry Coupling of resins with sand for improved foundry core strength. SiSiB® PC1100, SiSiB® PC1106, SiSiB® PC1108, SiSiB® PC1110, SiSiB® PC1200, SiSiB® PC1220, SiSiB® PC1120, SiSiB® PC1300, SiSiB® PC2300, SiSiB® PC3100, SiSiB® PC5881, SiSiB® PC5901, SiSiB® PC5902, SiSiB® PC6110, SiSiB® PC6120, SiSiB® PC6130 |
Foundry Resins | SiSiB® ethyl silicates are used as refractory binder for precision foundry. SiSiB® PC5410, SiSiB® PC5420, SiSiB® PC5424, SiSiB® PC5430, SiSiB® offers a wide range of organofunctional silanes which have been specially developed for the foundry industry. Benefits from SiSiB® organofunctional silanes: Improvement of initial and final strength Reduction in the resin requirement Increase in storage stability of the resin Elimination of disturbing environmental effects such as moisture SiSiB® PC1100, SiSiB® PC1106, SiSiB® PC1108, SiSiB® PC1110, SiSiB® PC1120, SiSiB® PC1200, SiSiB® PC1220, SiSiB® PC2300, SiSiB® PC2510, SiSiB® PC2521, SiSiB® PC3100, SiSiB® PC3200, SiSiB® PC3300, SiSiB® PC3500, SiSiB® PC3510, SiSiB® PC4100, SiSiB® PC6110, SiSiB® PC6120, SiSiB® PC6130 |
Glass Fiber and Fabrics | Silane coupling agents are an important component of glass-reinforced polymers. The glass is very hydrophilic and attracts water to the interface. Without silane treatment on the glass surface, the bond between the glass fiber and the resin would weaken and eventually fail, making a composite essentially useless. Benefits imparted to glass-reinforced polymers: Increased mechanical strength of the composites Improved electrical properties Improved resistance to moisture attack at the interface Improved wet-out of the glass fiber Improved fiber strand integrity, protection and handling Improved resistance to hot solder during fabrication Improved performance in cycling tests from hot to cold extremes SiSiB® PC1100, SiSiB® PC1110, SiSiB® PC1200, SiSiB® PC3100, SiSiB® PC4100. |
LED Encapsulation Materials | SiSiB® silanes and fluids are widely used in Potting, Bonding and Encapsulating sealants. Silane: SiSiB® PC8131, SiSiB® PC8221, SiSiB® PC9180, SiSiB® PC9181, SiSiB® PC9400, SiSiB® PC9401, SiSiB® PF8801. Fluid: Phenyl Silicone Fluid, Phenyl Vinyl Silicone Fluid. |
Olefin Polymerisation | Selected silanes, known as external donors or electron donors, are used in conjunction with Ziegler-Natta catalysts in the manufacture of ethylene and polypropylene. Ziegler-Natta catalysts are organometallic compounds; organoalkoxysilanes can chemically coordinate with the organometallic catalyst to modify the course of the polymerization. Different silane donors with differing organoalkoxy structures are used depending on the exact nature of the catalyst and the type of polypropylene being manufactured. SiSiB® PC5410, SiSiB® PC5420, SiSiB® PC5931, SiSiB® PC5932, SiSiB® PC5952, SiSiB® PC8132, SiSiB® PC8220, SiSiB® PC9500, SiSiB® PC9510, SiSiB® PC9520, SiSiB® PC9530, SiSiB® PC9540 |
Rubber compounding | Vinyl silanes have been used commercially since the 1970s to crosslink polyethylene homopolymer and its copolymers. Vinyltrimethoxysilane and vinyltriethoxysilane are the most common silanes used in the process. In an extruder in the presence of peroxide and heat, the vinyl group will graft to the polyethylene backbone, yielding a silane-modified polyethylene that contains pendant trialkoxysilyl functionality. The grafted polyethylene can then be immediately crosslinked in the presence of a tin catalyst, moisture and heat to create a silane-crosslinked product. SiSiB® PC3100, SiSiB® PC4100, SiSiB® PC5861, SiSiB® PC5902, SiSiB® PC6110, SiSiB® PC6120, SiSiB® PC6130 |
Silicone Rubber | For HTV, SiSiB® Silicone Gum SiSiB® Fumed Silica. SiSiB® Structure Control Additives SiSiB® OF0025, SiSiB® PC5221, SiSiB® PC5222, SiSiB® PC8228, SiSiB® PC8611 SiSiB® Anti-yellow Agent SiSiB® HF2020, SiSiB® PC9150. For RTV-1 SiSiB® Base Polymer SiSiB® Adhesion Promoters SiSiB® Crosslinkers SiSiB® Fumed Silica For RTV-2 SiSiB® Vinyl Polymer SiSiB® VF6030, SiSiB® VF6050, SiSiB® OF6050 SiSiB® Crosslinkers SiSiB® HF2030, SiSiB® HF2050. |
Sol-Gel | SiSiB® PC1100, SiSiB® PC1110, SiSiB® PC1200, SiSiB® PC2300, SiSiB® PC3200, SiSiB® PC4100, SiSiB® PC5131, SiSiB® PC5132, SiSiB® PC5410, SiSiB® PC5420, SiSiB® PC5430, SiSiB® PC5931, SiSiB® PC5932, SiSiB® PC6110, SiSiB® PC8131, SiSiB® PC8132 |
Synthetics & Pharmaceuticals | The field of organosilicon chemistry has undergone explosive growth in the past thirty years, Organosilicon compounds have many applications in organic chemistry, most notably as: Derivatization reagents, Blocking / protecting agents, Intermediates in organic synthesis and reducing agents. As the global market for antibacterial compounds increases due to population growth and increasing healthcare demands, pharmaceutical manufacturers will rely on silanes as they develop the next generation of antibiotic therapies. SiSiB® PC2300, SiSiB® PC2310, SiSiB® PC2320, SiSiB® PC5310, SiSiB® PC5312, SiSiB® PC5313, SiSiB® PC5314, SiSiB® PC5710, SiSiB® PC8710, SiSiB® PC9200, SiSiB® PC9210, SiSiB® PC9220, SiSiB® PC9230, SiSiB® PC9235, SiSiB® PC9236, SiSiB® PC9903, SiSiB® PC9400content_wrap |
Diffusion Pump Fluid | Diffusion Pump Fluids are designed for high vacuum and for fast pumping of large volumes of gas or vapor in production operations. SiSiB® PF8702, similar to Dowcorning's DC-702 SiSiB® PF8704, similar to Dowcorning's DC-704 SiSiB® PF8705, similar to Dowcorning's DC-705. SiSiB® PF8710, similar to Dowcorning's DC-710. |
PCBL Introduction
1. No. 1 in India and the world's No. 4 carbon black manufacturer (Total capacity of 900,000 tons/year)
2. The world's first carbon black company to receive carbon credits under the Kyoto Protocol of the United Nations Framework Convention on Climate Change (UNFCCC)
ROYALE BLACK
Bleumina
Fine organics
Product Name | Chemical Name | Specification | Application |
Fina wax E | Erucamide | 98% min | Slip agent |
Fina wax O | Oleamide | 98% min | Slip agent |
Fina wax 100 | Oleochemicals | - | PE anti-fog agent |
Fina wax PP200 | Oleochemicals | - | PP anti-fog agent |
Fina wax 400 | Oleochemicals | - | PVC anti-fog agent |
Fina wax 60 | Oleochemicals | - | PET anti-fog agent |