Kaum ein Chemiegesetz wird in der Branche so rege diskutiert wie die REACH-Verordnung. Deswegen haben wir für unsere Kunden ein Glossar mit verschiedenen Informationen rund um REACH zur Verfügung gestellt.
Unser REACH Glossar erläutert kompakt und verständlich die wichtigen Begriffe und Abkürzungen aus dem Chemikalienrecht und soll unsere Kunden unterstützen, sich im “REACH-Dschungel” zurechtzufinden. Weitere Begriffsdefinitionen finden Sie in der mehrsprachigen Terminologiedatenbank der ECHA.
Acid process for the removal of rust, scale and oxide layers from oiled and greased surfaces.
Acid process with strong degreasing effect and only moderate etching of the base material.
Anodic stripper for bright nickel-, brass-, copper-, and tin layers on iron base materilas.
Prevents etching of base material in hydrochloric or sulphuric acid based pickling solutions.
Spraying process for the removal of metal resist layers made of tin. The stripper may be recycled in by-bass operation.
Acid process for the removal or loosening of scale, oil carbon, pigments and other stubborn residues.
Process for electrolytic stripping of tin, lead and tin-lead alloys from stainless steel.
Acidic copper activator free of complexing agents for the removal of copper-tin diffusion layers left on copper surfaces after stripping tin or tin lead.
Cyanide Pickle for pre-treatment of aluminium to allow electroplating.
Pickle additive for long-running pickles with sodium hydroxide content
Strong alkaline stripper free of complexing agents for chemical stripping of tin and tin-lead from steel.
Alkaline-cyanide based stripper for electroless stripping of metal coatings from steel.
Acid stripper for chemical stripping of tin, nickel and combination layers from non-ferrous metals.
Acid stripper for electroless stripping of tin and tin-lead coatings, especially suitable for PCB manufacturing.
Alkaline, cyanide-free process for electroless stripping of nickel from steel, copper, brass and German silver.
Two-stage chemical process for the removal of tin, tin-lead and lead deposits from copper by spray methods. Application in continuous plating lines.
Copper activation acidic and free from complexing agents applied for the removal of Cu oxide layers in the PCB technology.
Two-stage chemical process for the removal of tin, tin-lead and lead deposits from copper by tank methods.
Electrolytic stripping of copper, chrome, nickel (including matt and semi-bright) from stainless steel jigs.
Produces a zinc layer on aluminium and its alloys which allows for direct plating.
Pickle degreaser with activating components for stubborn pickling problems.
Weak acidic, fluoride-free activation for Cu alloys which contain small quantities of silicon and Ni.
Cyanidic pickle for pre-tratment of aluminium before electro- or electroless plating.
SLOTOSTRIP VA 1390 is intended for the chemical stripping of Sn, Cu, bright- and semi bright Ni from racks made of stainless steel.
Acid aluminium pickle. Especially suitable for aluminium alloys.
Universal electrolytic cleaner for anodic and cathodic mode of operation.
Universal cleaner for steel and non-ferrous metals in rack, barrel or reel-to-reel installations.
Highly effective immersion degreaser for the removal of oil, grease or drawing compounds from steel.
Mild alkaline cleaner for immersion or spray cleaning of aluminium, aluminium alloys and zinc die-casts.
Primarily used for cleaning of printed circuit boards prior to activation.
Weak alkaline immersion or spray cleaner for aluminium, aluminium alloys and zinc die cast.
Cleaner for PCBs combined with sulfuric acid for the use before activating.
Strong alkaline process not only suitable for electrolytic degreasing but also for immersion degreasing of steel.
Weak alkaline immersion degreaser for the removal of processing oils and drawing compounds from aluminium, copper, brass and nickel silver.
Degreaser with silicate content for electrolytic cleaning of steel.
Universal cleaning process for electrolytic degreasing respectively activation of non-ferrous metals, zinc die-cast and steel.
Strong alkaline process for immersion degreasing of steel.
Strong alkaline process for immersion degreasing of steel in rack and barrel application. Especially suitable for the removal of processing oils.
Universal cleaning process for electrolytic degreasing of steel, non-ferrous metals and zinc die-cast.
Ideally suited for neutralisation following alkaline pre-treatment and for activation of steel, non-ferrous metals, zinc die-casts and aluminium.
Alkaline process for immersion degreasing of steel, copper and copper alloys.
Strong alkaline process used for electrolytic degreasing as well as immersion degreasing of steel.
Weak alkaline process for cleaning of non-ferrous metals, steel and aluminium. Make-up is performed with two liquid concentrates.
Universal cleaning process for electrolytic degreasing of steel and non-ferrous metals, as well as for immersion degreasing of steel.
Universal, alkaline, cyanide-free cleaning process. Electrolytical and immersion cleaning for non-ferrous and zinc die-cast.
Weak alkaline immersion degreaser for steel, non-ferrous metals and aluminium.
Process used for electrolytic degreasing of steel, non-ferrous metals and zinc die-casts, as well as for immersion degreasing of steel.
Alkaline potassium-based immersion degreaser used for steel, copper and copper alloys.
Suitable for electrolytic degreasing of non-ferrous metals and zinc die-cast, as well as for immersion degreasing of zinc die-cast.
Strong alkaline cleaner for immersion and electrolytic degreasing of steel surfaces. Depending on the given task, two different concentrates are available.
Aquaeous, weakly alkaline and moderately foaming cleaning system on biological basis, used for the removal of oil, grease, etc. at low bath temperatures.
Mild alkaline cleaner for alkali-sensitive metals such as zinc die-casting, sendzimir zinc-plated surfaces and aluminium.
Weak alkaline process for cleaning of brass and copper.
Complexing process for degreasing of steel, anodic or with periodic pole reverse (anodic-cathodic).
Universal cleaning process for electrolytic degreasing of steel and non-ferrous metals and is suitable for lead bronzes as well.
Strong alkaline immersion degreaser for steel, copper and copper alloys.
Strong alkaline cleaner for spray, hot-soak, immersion and electrolytic degreasing of steel and enamel surfaces. Make up is performed with liquid concentrates.
Strong alkaline cleaner for immersion- and electrolytic degreasing of steel surfaces. NaOH must be provided by the user.
Additives for alkaline degreasers to enhance cleaning.
Application in vertical plating lines. Deposition of bright coatings with low internal stress and optimal breaking elongation.
Acid electrolyte with a high degree of brightness and levelling. The deposition rate is very high.
Cyanide based high-performance electrolyte for the deposition of bright, smooth, fine crystalline and ductile copper layers.
Highly economical and easy to oprate electrolyte for the deposition of decorative copper coatings.
Application in vertical plating lines. Pattern plating. Deposits with excellent metal distribution and throwing power.
PCB electrolyte for the deposition of bright, levelling layers with low internal stress at excellent metal distribution.
Application in vertical and horizontal continuous plating lines. Deposition of fine-grained and ductile coatings. Cathodic current density up to 10 A/dm2.
Application in horizontal continuous plating lines. Especially suitable for periodic reverse current (reverse pulse plating).
For production of HDI-PCBs in order to achieve superfilling of blind microvias with copper and a min. copper thicknesson the surface.
SuperFilling copper electrolyte for the application in vertical plants, especially for the filling of Blind Microvias and even lower layer thickness on the suface of the PCB than SLOTOCOUP SF 30.
Electrolyte developed for copper plating of PCBs if processes of direct plating are applied. Can also be used as RRP electrolyte.
Very economical and easy to operate electrolyte for the deposition of decorative copper coatings.
For production of HDI-PCBs in order to fill blind microvias with copper, pattern plating, metallize through holes in a one step process.
Elektrolyte operated with DC, enables very good throwing power in high aspect ratio holes.
In combination with RRP SLOTOCOUP PRT 2200 enables with RPP a excellent metal distribution in through holes. SLOTOCOUP PRT 2200 can also be operated with direct current (DC).
Application in vertical plating lines. One-step process for filling blind microvias, pattern plating and through-hole metallisation.
This electrolyte uses the the advantages of Reverse Pulse Plating (RPP) in connection with vertical reel-to-reel plating plants optimally.
Application in vertical plating lines. For through-hole plating and metallisation (not filling) of blind microvias.
In combination with RRP SLOTOCOUP PRT 2020 enables with RPP a excellent metal distribution in through holes. SLOTOCOUP PRT 2020 can also be operated with direct current (DC).
In combination with RRP SLOTOCOUP CU 210 enables with RPP a excellent metal distribution in through holes. SLOTOCOUP CU 210 can also be operated with direct current (DC).
For plating of intermediate nickel layers in the field of electrical and electronic engineering. Sturdy process for the deposition of ductile and extremely active surfaces.
High speed electrolyte for electro-forming, thick nickel coating and reel-to-reel plating. Deposits nickel layers with low internal stress.
Trouble-free co-deposition of iron allows the operation at high ph values. This raises the efficiency.
Highly ductile and superbright deposits with good levelling, even for thin nickel layers. Suitable for rack and barrel application.
Ductile and high bright nickel deposits with excellent levelling even for thin nickel layers. Especially recommended for barrel application.
Universal superbright electrolyte with separate control of brightness and levelling.
High bright nickel deposits with excellent throwing power and a high degree of levelling and ductility, even when very thin nickel coatings are deposited. Especially recommended for rack application.
The disturbing influence of foreign nickel ions in bright nickel electrolytes can be almost suppressed.
Bright nickel coatings deposited from barrel electrolytes receive a brighter and a more active surface for better chrome plating.
Inhibits the co-deposition of zinc. Disturbances like dark coatings in the low current density area or inhibitions of the nickel deposition will be prevented.
Deposits ductile superbright layers with excellent levelling and thin nickel layer, especially suitable for rack application.
Decorative application with two different options:deposition of non-dazzling and satin-matt coatings, or nickel layers with pearlescent effect.
This nickel electrolyte deposits silky-matt nickel layers with a good ductility. It closes the gap between matt- and bright nickel electrolytes.
Semi bright nickel layers for the use in double nickel processes. Ductile layers with good levelling.
In case of adehsion problems Nickel Strike Elektrolyte is used for the pre-coating of difficult base material.
Electrolyte based on Cr(III), for the deposition of decorative bright chrome coatings.
Bright, decorative layer with a max. layer thickness of 0.2 µm with a good throwing- and covering power on Cr(III)- and sulphate basis, as well as free from ammonia.
Easy maintenance and high deposition rates are the features of this hard chrome electrolyte.
A conventional bright chrome electrolyte which is easy to maintain.
Cr(VI) electrolyte with good throwing power and covering at a variable chromic acid content.
Black Chrome SLOTOCHROM 70 forms uniform, decorative black chrome coatings. They're also applied in the technical field, e.g. solar technology and optical industry.
Wetting Agent Concentrate SLOTOCHROM FT 248 is a Cr(VI) resistant, surface active surfactant concentrate of substances containing PFOS (PFT). Ist use is intended for hard chrome electrolytes.
Polyfluoro-containing, PFOS-free, Cr(VI) resistant wetting agent; forms a closed layer of foam over the surface of the elctrolyte inhibiting the spraying of chrome mists.
An immersion process on aqueous basis to avoid tarnish effects on silver.
Especially suitable for decorative bright silver application, technical and heavy silver plating in both, rack and barrel systems.
Corrector for static rinses used to avoid discolouration.
Technical and decorative application. Superbright silver layers with low resistivity.
Cr(VI)-free post treatment process for electro-deposited silver surfaces, preventing tarnishing of the silver layers. Antitarnish AG 110 does not affect the solderability.
Antitarnish AG 110 S is an acidic pot-treatment process for electro deposited silver surfaces . Tarnishing of silver surfaces by the formation of sulphidic layers is prevented.
Deposition of Ag on Cu-surfaces by charge exchange. Production of solderable surface for PCBs.
Electroless process for the deposition of 24-carat gold layers. SLOTOGOLD 10 deposits even gold coatings with a thickness of up to 0.2 µm.
Weak acid electrolyte for the deposition o 24-carat bright gold coatings. The coatings have a thickness of up to 4µm and a hardness of 120 - 180 HV.
Weak acidic fluoride-free electrolyte for the deposition of matt to semi-bright coatings. Excellent protection against red rust.
Cyanidischer Elektrolyt einfache Badführung hohe Stabilität
Alkaline/cyanide-free zinc-iron electrolyte which deposits matt coatings in the appearance of ROTOSIL 7
Spray suppresant in electrolytic degreasers and alkaline zinc electrolytes.
Cyanide electrolyte, easy to operate and highly stable.
Alkaline/cyanide-free electrolyte for barrel application. Even steel types with poor starting behaviour can be plated very dependably due to the two-step process.
Alkaline/cyanide-free electrolyte. Excellent metal distribution and adhesion. Suitable for rack and barrel application.
Spray suppresant in electrolytic degreasers and alkaline zinc electrolytes.
Alkaline/cyanide-free electrolyte. Special variant for barrel application. Coatings can be black passivated.
Alkaline/cyanide-free electrolyte on the basis of potassium. Excellent metalldistribution and adhesion. Can be used for both rack- and barrel parts. Non-toxic additives.
Alkaline/cyanide-free electrolyte, improved adhesion and bright throwing power. Can be used for both rack- and barrel parts. Wide range of dosing. Non-toxic additives.
Alkalline zinc electrolyt with excellent adhesion at highest alkali content.
Alkaline/cyanide-free electrolyte with a special variant for barrel application. High iron content for good results in a black passivating.
Alkaline zinc electrolyte of the new generation for barrel- and rack parts, very high degree of brightness, wide dosing windowr, very good metal distribution and adhesion.
Zink-Nickel SLOTOLOY ZN 210 is an alkaline, single-step process for the deposition of zinc-nickel alloy coatings with a nickel ratio of 12 - 15 % by weight. It's exclusively used for barrel plating.
Weak acidic electrolyte for rack and barrel application for deposits with high brilliance and excellent ductility. No disturbing cloud point.
Weak acidic electrolyte, excellent operation until 60°C, therefore especially suitable for barrel application. No disturbing cloud point.
Super bright weak acidic zinc electrolyte with especially good starting behaviour for direct coating of cast-iron material.
Bright, weakly acidic zinc electrolyte for cast coating with high covering power, ideal for duplex coating.
High bright, weakly acidic zinc electrolyte with excellent bright throwing power of the deposited coatings.
Weak acidic electrolyte for both rack- and barrel application with high brilliance and excellent bright throwing power.
Very bright, weak acidic electrolyte which bases on potassium acetate and is free brom boric acid.
Weakly acidic, boric acid-free electrolyte for the deposition of semi-bright to bright zinc-nickel coatings.
Weak acidic, boric acid-free electrolyte with decreased total metal content. It deposits silky matt to bright layers with a Ni codeposition rate of 12 -15 % by weight.
Alkaline electrolyte with even alloy distribution and increased current efficiency. Excellent corrosion protection.
Cobalt-free passivation for the application on acidic- and alkaline deposited zinc layers. The demands on corrosion resistance according to DIN 50979 are met.
Liquid additive used to remove zinc from passivations, thus increasing the service life of the passivating solution.
SLOTOPAS PF 1060 produces intensiv black conversion layers on alkaline deposited zinc layers. The focus s on rack application.
Improves adhesion and corrosion resistance of yellow chromated layers.
Black chromating two-step process for zinc-iron alloys. Liquid product.
Post-Dip Solution for black chromated zinc and zinc-iron coatings. Fixes the chromate layer and improves its appearance.
Post-dip sol. for black chromated Zn- and Zn-Fe layers, fixes the chromated layer and improves the appearance.
Black chromating process for zinc and zinc-iron coatings. Liquid product.
Black chromating process for zinc coatings from acid and alkaline electrolytes. May also be applied as olive chromating. Solid product.
Organic sealant for chromated or passivated zinc and zinc alloy layers. Produces a uniform appearance and improves the corrosion protection.
Clear, transparent hybrid sealant which contains organic- as well as inorganic components. This film doesn’t only increase the corrosion protection but also reduces the sensitivity towards finger prints and improves the appearance.
Inorganic sealant for chromated respectively passivated zinc- and zinc alloy layers. It produces an uniform appearance and improves the corrosion protection.
Produces a transparent, weakly bluish finish on zinc-nickel alloys. SLOTOPAS ZN T 20 is operated at room temperature.
Produces slightly iridescent conversion layers with excellent corrosion protection. Subsequent sealing gives a uniform transparent surface finish.
Produces bluish-violet conversion layers. Less sensitive towards temperature treatment.
Produces slightly iridescent conversion layers on zinc and zinc-iron. Reduces inside corrosion. Subsequent sealing gives a uniform transparent surface finish.
Thin Layer Passivation for zinc-nickel alloys. Excellent corrosion protection. Free of flouride.
Produces iridescent conversion layers at low passivation temperatures; with good corrosion protection; a more uniform appearance will be achieved by sealing.
The passivation is applied for direct passivating of Zn die cast. It produces a uniform light, blue iridescent, Cr(VI)-free protection layer with good corrosion behaviour and good thermal stability.
Single-component thinlayer passivation for zinc-nickel alloys.
Post-Treatment for zinc-nickel coatings, for transparent appearance and less sensitve to fingerprints. Replaces the sealing at black passivated parts.
Thin layer passivation for zinc-nickel alloys. Stainless steel like appearance.
Black chromating for electro deposited Zn-Ni layers which form deep black, uniform surfaces.
Sealant for chromated or passivated zinc and zinc alloys containing nano sized silicon compounds. It gives a clear, transparent surface film after drying and increases corrosion protection and optical appearance.
Sealer produces a nearly closed coating on parts with complicated geometry.
Sealant with very good corrosion protection on the basis of polysilicate.
Post-dip solution which forms a transparent protection film. It doesn't only increase the corrosion protection but also reduces the sensitivity towards finger prints and improves the appearance.
Sealant with very good corrosion protection on the basis of polysilicate with an integrated lubricant.
Intensive yellow passivation without any dye.
Black passivation at RT for alkaline zinc- and low alloyed zinc-iron layers.
Yellow passivation which deposites at low temperatures a yellowish-reddish to greenish passivation layer with good corrosion protection
Cobalt-free Passivation SLOTOPAS ZNC 50 is used for passivation of electro deposited zinc-nickel layers. It produces a colourful iridescent chromium(VI)-free passivation layer with good corrosion behaviour.
Cobalt-free passivation witch is used for passivation of electro deposited zinc-nickel alloy layers . It produces a blue, chromium(VI)-free passivation layer with good corrosion behaviour and is suitable for colour coding of articles.
Transparent passivation for Zn-Ni alloy coatings, free from cobalt and fluoride.
Produces dark conversion layers on zinc-nickel alloys. Gives a uniform black surface finish when followed by a sealant.
Cr(VI)-, cobalt- und fluoride-free thin layer passivation with bluish appearance and for rack parts good corrosion behaviour.
Passivation SLOTOPAS Z 30 T forms on every zinc plated surface an intensive bluish, chromium(VI)-free protection layer with extraordinary good corrosion behaviour.
Yellow passivation with organic dye for electro deposited Zn layers. It produces a yellow-green iridescent passivation layer with very good corrosion protection.
METAPAS F yellow CA is intended to yellow chromating of electro deposited zinc coatings. Barrel- and rack parts can both be chromated very well.
METAPAS F black CA is intended to black chromating of electro deposited zinc coatings and forms deep black and uniform surfaces. In dry condition these are resistant to abrasion and bending.
METAPAS 131 CA forms a dark olive chromate film on zinc- cadmium- as well as on cadmium alloycoatings, which are mainly deposited from alkaline electrolytes.
METAPAS olive CA forms dark-, olive freen chromate films and can be used forrack- as well as for barrel parts.
METAPAS C black CA forms deep black chromate films, regardless if the zinc layers have been deposited from acidic, alkaline cyanide-free or cyanidic electrolytes.
Produces black conversion layers on zinc-iron alloys .Subsequent sealing is recommended.
Acidic fluoride-free electrolyte for the deposition of silky-matt fine crystalline coatings. It's used in reel-to-reel plating lines for the tinning of wires or strips.
Acidic, fluoride-free electrolyte for the depositin of satin-matt and fine-crystalline coatings. Used for tin plating of wires and tapes in reel-to-reel installations.
Sulphur-acid electrolyte, weakly foaming especially for barrel and continuous plating lines.
Strong acidic, flouride-free process for the deposition of silky-matt fine crystalline coatings in continuous plating lines, with only little tendency towards formation of tin-whiskers.
Matt tin electrolyte with excellent coverage and solderability.
Fluoride-free, acidic electrolyte for the deposition of bright tin coatings in reel-to-reel installations. Excellent solderability even after prolonged storage or heat ageing.
Weak acid, flouride-free electrolyte for the deposition of matt coatings. Matt Tin SLOTOTIN 60 is used for plating of electronic componentsy with glass or ceramic parts.
Fluoride-free, acidic electrolyte for the deposition of bright tin coatings in reel-to-reel installations. Depending on plant design and operating temperature high current densities can be achieved. Foaming of the additives is very low, even during intensive electrolyte agitation.
Sulphuric acid based electrolyte for the deposition of very bright tin coatings in rack or barrel applications. Low bath temperatures, reduced cloudiness, moderate foaming.
Electrolyt on the basis of sulphuric acid for the deposition of silk-matt tin coatings on electronical or electrotechncal components.
Removes tin(IV) from acid tin electrolytes.
Electroless deposition of tin on copper and copper alloys. Brightening of lead or tin-lead surfaces.
Universally applicable, strong acidic, fluoride-free electrolyte for rack-, barrel-, and PCB applications. It deposits matt to silky matt, fine crystalline coatings.
Sulphuric acid based electrolyte for the deposition of very bright tin coatings in rack and barrel applications. Low bath temperatures and reduced cloudiness.
Sulphate-free electrolyte giving a fine crystalline deposit with excellent covering power. Compatible with lead-free solders. Tendency to whisker formation is reduced.
Superbright tin layers at any thickness for rack and barrel application. Printed circuit boards, electro-technical components, household appliances.
Sulphuric acid based electrolyte for the deposition of bright pure tin layers in rack or barrel applications. Special brightener is available for pcb manufacturing.
Sulphate-free electrolyte giving a fine-crystalline deposit with good covering power. It shows good tolerance to bleeding of alkaline resists.
Sulphuric acid based electrolyte giving fine crystalline deposits with excellent covering power and solderability.
Organic-based fluoride- and formaldehyde-free process for the deposition of bright tin coatings. Solderability of the tin coatings is excellent, even after accelerated heat ageing. The deposits are not sensitive towards fingerprints.
Borofluoric acid based electrolyte for PCB and electronic components. Deposits fine crystalline coatings with approx. 60 % tin in the alloy.
Acidic fluoride-free electrolyte for the deposition of the ternary alloy system lead-tin-copper. Even thick coatings are free of dendrites.
Acidic and low-foaming tin-lead bath for continuous plating lines.
Process for subsequent plating of IC packages (trim and form process).
Sulphate-free electrolyte giving a fine crystalline, matt deposit of a tin-copper alloy with a co-deposition of about 1 - 10 % Cu. The tendency to form whiskers is reduced.
Strong acidic electrolyte for the deposition of satin-matt fine-crystalline tin-silver layers with approx. 3% silver co-deposition in the alloy. Suitable for rack, barrel and reel-to-reel applications.
Process for rack- and reel-to-reel plating lines. 5 - 90 % lead.
Deposits low-carbon layers with 5 - 10 % lead in continuous plating lines.
Fluoride- and formalin-free electrolyte for the deposition of bright tin-lead coatings, primarily for alloys containing 5 - 40 % lead. Mainly used in reel-to-reel installations.
Multi-purpose, strong acidic and fluoride-free electrolyte for the deposition of smooth and dendrite-free coatings, even when thick layers of 200 µm or more are deposited.
Strong acidic fluoride-free electrolyte for the deposition of matt layers with 5-10% lead in the alloy. The alloy is stable over a wide current density range.
Fluoride- and formaldehyde-free electrolyte, based on organic acid, for the deposition of bright tin-lead coatings, for alloys containing 5 - 10 % lead.
Fluoride- and formaldehyde-free electrolyte for the deposition of bright tin-lead coatings, for alloys containing up to 40 % lead.
Fluoride and formaldehyde free process for the deposition of superbright tin-lead coatings with up to 40 % lead in the alloy.
Strong acidic, fluoride-free electrolyte based on alkyl sulphonic acids for the deposition of bright tin lead coatings. Haze-free bright coatings are easily achieved with 5 - 35 % lead in the alloy.
The strongly acidic tin-bismuth alloy electrolyte is for the deposition of silky matt Sn-Bi alloys with an bismuth co-deposition rate of up to 5 %.
Deposits brightness-retaining alloy coatings composed of approx. 65% tin and 35% nickel. Can be run on a wide current density range, approx. 0.1 - 5.0 A/dm². Suitable for for rack and barrel plating.
Antitarnish for active copper surfaces
Prevents tarnishing of tin and tin-lead coatings at heat reatment up to the melting point.
keine engl. Version
Allround process with combined additive system for depositions with a P-content of 6 - 9 % at a high deposition rate of app. 18 - 20 µm.
Ionogenic activator for activating non-conductors for subsequent metal deposition. The activator contains palladium.
Deposition of nickel-phosphorus layers a with phosphorus content of 10.5 - 11.5 %. Especially high corrosion resistance.
Deposition of Ni-P layers with a P-content of 10 - 12 % in the coatings. Especially high corrosion resistance. Ammonium-free variant.
Deposition of Ni-B layers. Thin layers for metallizing of non-conducting material (plastic, ceramic).
Fungicide for electroless nickel electrolytes
Electrolyt for the deposition of Ni-P coatings on metals and non conductive materials with a P-content of 7 - 10 %.
Electrolyte for the deposition of Ni-P coatings on metals and none conductive materials with a P-content of.
Deposition of Ni-P layers with 7 - 10 % P; allround process; 4 - 5 MTO.
Deposition of Ni-P layers with a P-content of 9 - 10 %.
Deposition of Ni-P layers. Thin layers for metallizing of non-conducting material (plastic, ceramic).
Wetting agent for the use in electroless Ni processes to avoid pores.
Post-treatment for electroless Ni layers on Pd basis to improve the solderability
Allows soldering of electroless nickel deposits and is especially recommended for Electroless Nickel SLOTONIP 90.
Electrolyte for electroless pre-nickel plating of aluminium after zincate.
Electrolyte for the deposition of Ni-P layers with a P-content of 6 - 9 % of at a low temperature (80 °C).
Corrosion resistance according to DIN EN ISO 9227, > 24 h also after heat treatment (120 °C / 24 h).
Auch in galvanotechnischen Verfahren kommen besonders besorgniserregende Stoffe (SVHC-Stoffe) zum Einsatz. Nach Artikel 33 der REACH-Verordnung muss ein Lieferant von Erzeugnissen seine Abnehmer informieren, sofern ein SVHC in einer Konzentration von über 0,1 Gewichtsprozent im Erzeugnis enthalten ist. Als Lieferant von Zubereitungen ist Schlötter von dieser Informationspflicht zwar ausgenommen, uns ist es jedoch wichtig, unsere Kunden über die in unseren Produkten verwendeten SVHC-Stoffe zu informieren. Deswegen fügen wir einen Hinweis über die Einstufung von Stoffen als SVHC-Stoffe in Abschnitt 15 (Rechtsvorschriften) unserer Sicherheitsdatenblätter ein.
Sobald neue Stoffe in die SVHC-Kandidatenliste aufgenommen werden, informieren wir alle Kunden, die Zubereitungen mit diesen Stoffen beziehen. Stoffe, die von der Europäischen Chemikalienagentur (ECHA) in die Kandidatenliste aufgenommen wurden, durchlaufen einen mehrstufigen Zulassungsprozess, in dem darüber entschieden wird, ob der jeweilige Stoff tatsächlich zulassungspflichtig wird, für welche Verwendungen keine Zulassung benötigt wird und ab welchem Ablauftermin ein Stoff nicht mehr ohne Zulassung verwendet werden darf.
Die nachfolgende Liste enthält nähere Informationen zu SVHC-Stoffen, die derzeit in Schlötter-Produkten verwendet werden.
Eine kompakte Übersicht über die Pflichten nachgeschalteter Anwender bei Verwendung eines Kandidatenstoffs (SVHC), eines Stoffs des Anhangs XIV oder des Anhangs XVII finden Sie hier.
Haben Sie noch Fragen über unser Glossar hinaus? Dr. Joachim Heermann, QM-Beauftragter von Schlötter, hilft Ihnen zu REACH gerne weiter. Dr. Heermann ist stellvertretender Ressortleiter des ZVO-Ressorts “REACH” und Autor der Rubrik “REACH und kein Ende” in der Zeitschrift Galvanotechnik.
Sie haben eine ganz konkrete Frage oder wünschen sonstige Informationen?
+49 (0) 7331 205-0
Notwendige Cookies helfen dabei, eine Webseite nutzbar zu machen, indem sie Grundfunktionen wie Seitennavigation und Zugriff auf sichere Bereiche der Webseite ermöglichen. Die Webseite kann ohne diese Cookies nicht richtig funktionieren.
Nicht notwendige Cookies ermöglichen einer Webseite sich an Informationen zu erinnern, die die Art beeinflussen, wie sich eine Webseite verhält oder aussieht, wie z. B. Ihre bevorzugte Sprache oder die Region in der Sie sich befinden.