C A R E U ID. plastic

C A R E G U ID plastic

x Blindtext Table of content 1 2 3 3.1 3.2 3.3 3.4 4 4.1 4.2 4.3 4.4 5 5.1 5.2 6 7 Types of plastic................................... 2 Polypropylene (PP)................................. 2 Chemical resistance of polypropylene................... 3 A............................................... 3 A, B............................................. 4 B, C............................................. 5 C, D, E........................................... 6 E, F, G, H......................................... 7 H, I, L, M......................................... 8 M, N, O.......................................... 9 P............................................... 10 P, R, S............................................ 11 S, T.............................................. 12 U, V, W, X, Y, Z..................................... 13 Polyamide (PA).................................... 14 Chemical properties................................. 14 Polyamide parts.................................... 14 Characteristics of polyamide.......................... 14 Chemical resistance of polypropylene................... 15 A C............................................. 15 C I............................................. 16 I P.............................................. 17 R W............................................ 18 X, Z............................................. 19 Integral foam (polyurethane)........................ 19 Chemical properties................................. 19 Physical properties.................................. 19 Cleaning.......................................... 19 Parts made of integral foam.......................... 19 Cleaning and care of HPL laminated table tops and MFC table tops.................................... 20 General remarks about the overview table............... 22 Overview table.................................... 23 Polyester felt..................................... 24 List of plastic cleaners and suppliers................. 24 Last update: August 2012 1

1 Types of plastic Series containing plastic parts: Polypropylene (seat and back of series Hola!) Polyamide (seat shell of series 2000_2080 uni_verso) HPL laminated table tops (table top surface) Integral foam (seat and arm pads of models 7020/5 Terminal, 8040/1, etc.) 2 Polypropylene (PP) Chemical properties PP has a good chemical resistance Physical properties Good resistance to acids and alkalis, low specific weight. Polypropylene, f.i. used for series 2200 Hola!, meets the fire prevention standards in accordance with DIN EN 1021 part 1+2. Cleaning Please do not use cleaners containing inorganic solvents on plastic parts. From experience, cleaners based on soap solutions are the best choice to clean polypropylene. Please do not abrasive cleaners or powders. The following parts are made of polypropylene: Plastic parts of series 2200 Hola! Arms of the series: 9100 Profession, 9230 Papilio 2

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP A Acetic acid, aqueous up to 25 40 resistant up to 25 60 resistant 25 60 60 resistant 80 40 resistant Acetic anhydride 100 20 resistant 100 60 limited resistance Acetone, aqueous traces 20 resistant Acetone 100 20 resistant 100 60 limited resistance Adipic acid, aqueous saturated 20 resistant Alkyl alcohol 96 20 resistant 96 60 resistant 96 80 resistant Alum, aqeous diluted 40 resistant diluted 66 resistant saturated 100 Aluminium chloride, aqueous diluted 40 resistant Aluminium sulphate, aqueous diluted 40 resistant saturated 100 Ammonia, gas 100 60 resistant Ammonia water saturated 40 resistant Ammonium chloride, aqueous diluted 40 resistant Ammonium fluoride, aqueous up to 20 20 resistant up to 20 60 resistant Ammonium nitrate, aqueous diluted 40 resistant Ammonium sulphate, aqueous diluted 40 resistant 3

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Ammonium sulphide, aqueous diluted 40 resistant saturated 100 Aniline, pure 100 20 resistant 100 60 resistant Aniline, aqueous saturated 29 limited resistance saturated 60 limited resistance Animal glue 20 resistant 60 resistant Antimony chloride, aqueous 90 20 resistant Aqua regia not resistant Arsenic acid, aqueous diluted 40 resistant B Beer usual 20 resistant Benzene 100 20 limited resistance 100 60 not resistant Benzine 100 20 limited resistance 100 60 not resistant Benzine/bezene mixture 20 limited resistance 60 not resistant Benzoic acid, aqueous any 20 resistant any 40 resistant any 60 resistant any 100 Benzoic acid natron, aqueous up to 10 40 resistant up to 10 60 resistant 36 60 resistant Bisulfite lye, cont. SO 2 warm saturated 50 resistant Bleaching lye: 12.5 % chlorine usual 40 limited resistance Borax, aqueous diluted 40 resistant Boric acid, aqeous diluted 40 resistant saturated 60 resistan 4

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Bromine, liquid 100 20 not resistant Butandiole, aqueous up to 10 20 resistant up to 10 40 resistant up to 10 60 resistant Butanol up to 100 20 resistant up to 100 40 resistant up to 100 60 limited resistance C Calcium chloride, aqueous diluted 40 resistant saturated 80 resistant Calcium nitrate, aqueous 50 40 resistant Carbon disulfide 100 20 resistant Carbon tetrachloride 100 20 not resistant 100 60 Carbonic acid, dry 100 60 resistant Carbonic acid, wet any 40 resistant any 60 resistant Caustic potash, aqueous up to 40 40 resistant up to 40 60 resistant 50/60 60 resistant 50 100 resistant Caustic soda, aqueous up to 40 40 resistant up to 40 60 resistant 50/60 60 resistant 50 100 resistant Chloroacetic acid (mono) 100 40 resistant Chloroacetic acid (mono), aqueous 85 20 resistant Chloroform 100 20 not resistant Chlorosulfuric acid 100 20 not resistant Chrome alum, aqueous diluted 40 resistant Chromic acid, aqueous 80 20 limited resistance Chromic acid/sulphuric acid/water 50/15/35 40 not resistant 5

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Citric acid, aqueous up to 10 40 resistant up to 10 60 resistant Copper chloride, aqueous saturated 20 resistant Copper fluoride, aqueous 2 50 resistant Copper sulfate,aqueous diluted 40 resistant Cyclohexanol 100 20 resistant Cyclohexanone 100 20 resistant D Decalin 100 20 not resistant Dextrine, aqueous saturated 20 resistant 18 60 resistant Dibutyl phthalate 100 20 resistant 100 60 limited resistance Dichloroethylene 100 20 resistant Diesel oil 100 20 resistant 100 60 limited resistance Diglycolic acid, aqueous 30 60 resistant saturated 20 resistant Dioxan 100 20 limited resistance E Ester 100 20 res. to limited res. 100 60 res. to limited res. Ethyl acetate 100 20 limited resistance 100 60 limited resistance Ethyl alcohol, aqueous any 20 resistant 96 60 resistant 96 80 resistant Ethyl alcohol, denaturated with 2 % toluene 96 20 limited resistance Ethyl alcohol (zymotic mashing) usual 40 resistant Ethyl alcohol + acetic acid usual 20 resistant (zymotic mashing) usual 50 resistant 6

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Ethyl ether 100 20 limited resistance Ethylene chloride 100 20 not resistant F Fatty acids 100 60 limited resistance Ferrocyanide and potassium ferrocyanide, diluted 40 resistant aqueous Formaldehyde, aqueous up to 10 40 resistant up to 10 60 resistant 40 30 resistant Formic acid, aqueous up to 50 40 resistant 50 60 resistant Formic acid 100 20 resistant 100 60 resistant Fruit juices 20 resistant Fruit pulp, concentrates working concentration 20 resistant G Glacial acetic acid 100 20 resistant 100 40 resistant 100 60 limited resistance Glucose, aqueous saturated 20 resistant Glycerine, aqueous any 60 resistant any 100 resistant Glycol, aqueous usual 60 resistant Grape sugar, aqueous saturated 20 resistant H Hexafluorosilicic acid, aqueous up to 32 20 resistant Hydrobromic acid, aqueous up to 10 40 resistant Hydrochloric acid, aqueous up to 30 40 resistant up to 30 60 resistant over 30 20 resistant over 30 60 resistant Hydrofluoric acid, aqueous up to 40 20 resistant 40 60 resistant 60 20 resistant 7

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Hydrogen chloride gas, wet and dry any 20 resistant any 60 resistant Hydrogen peroxide, aqueous up to 30 20 resistant up to 20 50 resistant 90 20 resistant Hydrogen sulfide, dry 100 60 resistant Hydrosulfide, aqueous up to 10 40 resistant up to 10 60 resistant I Iodine tincture usual 20 resistant Iron (ferric) chloride, aqueous up to 10 40 resistant up to 10 60 resistant Isopropyl alcohol any 20 resistant any 60 resistant L Lactic acid, aqueous up to 10 40 resistant up to 10 60 resistant 90 60 resistant Lead acetate, aqueous warm saturated 50 resistant diluted 40 resistant M Magnesium chloride, aqueous diluted 40 resistant Magnesium sulfate, aqueous diluted 40 resistant Maleic acid, aqueous saturated 40 resistant Malic acid, aqueous 1 20 resistant Methoxy butyl alcohol 100 40 resistant Methyl alcohol 100 40 resistant 100 60 resistant 8

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Methylamine, aqueous 32 20 resistant Methylene chloride 100 20 not resistant Mineral oils 100 20 resistant 100 60 limited resistance Mixed acid 1 48/49/3 20 not resistant (sulfuric acid/nitric acid/water) 48/49/3 40 not resistant 50/50/0 20 not resistant 50/50/0 40 not resistant 10/20/70 50 limited resistance 10/87/3 20 not resistant 50/31/9 30 not resistant Molasses usual 20 resistant usual 60 resistant N Nickel sulfate, aqueous diluted 40 resistant Nitric acid, aqueous up to 30 50 resistant 30/50 50 not resistant 98 20 not resistant Nitrous fumes concentrated 20 resistant Nutrient salt, aqueous up to 10 40 resistant up to 10 60 resistant O Oils, essential 100 20 limited resistance Oils, vegetable and animal 100 20 resistant 100 60 limited resistance Oleic acid usual 60 limited resistance Oleum 10 20 not resistant Oleum vapours lower 20 limited resistance higher 20 not resistant Oxalic acid, aqueous diluted 40 resistant Ozone 100 20 limited resistance 100 60 not resistant 10 30 resistant 9

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP P Perchloric acid, aqueous 20 20 resistant 20 60 resistant Petroleum ether 100 20 resistant 100 60 resistant Petroleum 100 20 resistant 100 60 limited resistance Phenol, aqueous up to 90 45 resistant Phosphoric acid, aqueous up to 30 40 resistant up to 30 60 resistant 40 60 resistant 80 20 resistant 80 60 resistant Phosphorus pentoxide 100 20 resistant Photo developer solution usual 40 resistant Photo fixing bath usual 40 resistant Potassium bichromate, aqueous 40 20 resistant Potassium borate, aqueous 1 40 resistant 1 60 resistant Potassium bromate, aqueous up to 10 40 resistant up to 10 60 resistant Potassium bromide, aqueous diluted 40 resistant Potassium carbonate, aqeous saturated 40 resistant Potassium chloride, aqueous diluted 40 resistant Potassium chromate, aqueous 40 20 resistant Pottasium cyamide, aqueous up to 10 40 resistant up to 10 60 resistant Potassium nitrate, aqueous diluted 40 resistant saturated 60 resistan 10

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Potassium permanganate, aqueous up to 6 20 resistant up to 6 40 resistant up to 6 60 resistant Potassium persulfate, aqueous diluted 40 resistant saturated 40 resistant R Roaster gas, dry any 60 resistant S Sea water, salt water 40 resistant 60 resistant Silicic acid, aqueous any 60 resistant Silver nitrate, aqueous up to 8 40 resistant up to 8 60 resistant Soap solution, aqueous concentrated 20 resistant concentrated 60 resistant Sodium benzoate, aqueous saturated 40 resistant Sodium bisulfite, aqueous diluted 40 resistant Sodium carbonate diluted 40 resistant Sodium chlorate saturated resistant Sodium chloride (see table salt) Sodium hypochloride, aqueous diluted 20 resistant Sodium sulfide, aqueous diluted 40 resistant Starch, aqueous any 40 resistant any 60 resistant Starch syrup working concentration 60 resistant Stearic acid 100 60 limited resistance 11

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP Sulfur dioxide, dry any 60 resistant Sulfur dioxide, wet and aqueous any 40 resistant 50 50 resistant any 60 resistant Sulfuric acid, aqueous up to 40 40 resistant up to 40 60 resistant 70 20 resistant 70 60 limited resistance 80 90 40 limited resistance 98 20 resistant 98 60 not resistant T Table salt, aqueous diluted 40 resistant Tallow 100 20 resistant Tanning extracts, cellulose usual 20 resistant Tanning extracts, herbal usual 20 resistant Tartaric acid, aqueous up to 10 40 resistant up to 10 60 resistant Terralin 100 20 not resistant 100 60 Tetrachloroethane 100 20 not resistant Tetrahydrofuran 100 20 not resistant 100 60 Thionyl chloride 100 20 not resistant Toluene 100 20 not resistant 100 40 Transformer oil 100 20 resistant 100 60 not resistant Trichloroethylene 100 20 not resistant Triethanolamine 100 20 resistant Turpentine 100 20 not resistant 100 60 not resistant 12

2 Polypropylene (PP) Chemical resistance of polypropylene Tested substance concentration in % temperature in C PP U Urea, aqueous up to 10 40 resistant up to 10 60 resistant 33 60 resistant any 60 resistant 20 resistant Urine normal 40 resistant V Vinegar (wine vinegar) usual 40 resistant usual 50 resistant usual 60 resistant W Waste gases, cont. carbonic acid any 60 resistant any 80 nicht geprüft Waste gases, cont. hydrochloric acid any 60 resistant Waste gases, cont. Hydrogen fluoride traces 60 resistant traces 100 Waste gases, cont. oleum higher 20 not resistant Waste gases, cont. SO 2 lower 60 resistant Waste gases, cont. sulphuric acid (wet) any 60 resistant Waste gases, nitrous traces 60 resistant Water 100 40 resistant 100 40 resistant X Xylol 100 20 not resistant 100 40 Y Yeast seasoning working concentration 40 resistant working concentration 60 resistant Z Zinc chloride, aqueous Zinc sulfate, aqueous diluted 40 resistant 13

3 Polyamide (PA) 3.1 Chemical properties PA is characterized by a good resistance to oils, fats, and lubricants as well as to weak bases. Polyamide, however, is degraded by mineral acids, strong organic acids, oxidants and phenols. Please do not use cleaners containing inorganic solvents on plastic parts. This material is resistant to all commercially available cleaners, and to detergents, alcohol and soap solutions in particular. Polyamide is less resistant to acids. From experience, cleaners based on soap solutions are the best choice to clean polyamide. Abrasive cleaners will damage the surface texture, leaving matt, dull blemishes. Do not use such cleaners on plastic. 3.2 Parts made of polyamide The arms of the following series: 3140 Scorpii Back of series 9100 Profession Base of series 9200 Papilio Seat shell of series 2000_2080 uni_verso 3.3 Special characteristics of polyamide In general Excellent toughness combined with a good hardness. Excellent abrasion resistance and great dimensional stability at high temperatures. Mechanical properties largely depend on the moisture content of the formed parts. Milky, opaque finish. Resistant to benzine, benzene, and many other solvents. Physiologically safe. Good level of sound absorption. Good friction behaviour. Processed in accordance with the standard thermoplastic processes. Polyamide meets the fire prevention requirements of DIN EN 1021 part 1+2. Polyamide 6 Excellent toughness, even at cold temperatures. Hard. Some types of this group are suited for the production of plastic foils. Polyamide 6.6 This polyamide boasts the best hardness, stiffness, abrasion resistance, and dimensional stability at high temperatures. Polyamide 6.10 Low level of water absorption, therefore well-suited for parts requiring an increased dimensional stability Polyamide 11 Very low level of water absorption, therefore excellent dimensional stability compared to other polyamides (with the exception of polyamide 12). Lower hardness and stiffness compared to polyamide 6. Polyamide 11 has the best shock resistance by far of all polyamides. Polyamide 12 Even less water absorption than PA 11. Better shock resistance than polyamide 6, but not as good as PA 11. Increased resistance to stress degradation in comparison with other polyamides. 14

3 Polyamide (PA) 3.4 Chemical resistance of polyamide Tested substance concen- Polyamide: tration % 6 6.6 6.10 11 12 lim. res. lim. not res. lim. r. not r. res. lim. res. = limited resistance = limited not resistant = limited resistance to not resistant = resistant to limited resistance A Acetaldehyde, aqueous 40 lim. res. lim. res. lim. res. resistant resistant Acetamide, aqueous 50 resistant resistant resistant resistant resistant Acetic acid, aqueous 5 resistant resistant resistant resistant resistant 10 not res. not res. not res. not res. not res. conc. not res. not res. not res. not res. not res. Acetone 100 resistant resistant resistant resistant resistant Alcoholic drinks res. lim. res. res. lim. res. resistant res. lim. res. resistant Allylalkohol lim. res. lim. res. lim. res. lim. res. resistant Aluminium sulfate, aqueous 10 resistant resistant resistant resistant resistant Alumunium chloride, aqueous 10 resistant resistant resistant resistant resistant Ammonia chloride 10 resistant resistant resistant resistant resistant Ammonia water lim. res. lim. res. lim. res. lim. res. res. lim. res. Ammonia, aqueous 10 resistant resistant resistant resistant resistant Amyl acetate 100 resistant resistant resistant resistant resistant Amyl alcohol 100 resistant resistant resistant resistant resistant Aniline lim. res. lim. res. lim. res. lim. res. lim. res. B Benzaldehyde 100 lim. res. lim. res. lim. res. lim. res. lim. res. Benzene 100 resistant resistant resistant resistant resistant Benzine resistant resistant resistant resistant resistant Benzoic acid lim. res. lim. res. lim. res. lim. res. resistant Benzyl alcohol 100 lim. r. not r. lim. r. not r. lim. r. not r. Bitumen res. lim. res. res. lim. res. res. lim. res. Bleaching lye, aqueous not res. not res. not res. Boric acid 10 res. lim. res. res. lim. res. resistant res. lim. res. res. lim. res. Brandy res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Butanol 100 res. lim. res. resistant res. lim. res. res. lim. res. resistant Butter resistant resistant resistant resistant resistant Butyl acetate 100 resistant resistant resistant resistant resistant Butylen glycol resistant resistant resistant resistant resistant Butyric acid 20 not res. not res. not res. not res. not res. C Calcium chloride, aqueous 10 resistant resistant resistant resistant resistant Camphor 100 resistant resistant resistant resistant resistant Carbon disulfide 100 resistant resistant res. lim. res. resistant resistant Carbon tetrachloride resistant resistant resistant resistant resistant Caustic potash, aqueous 10 resistant resistant resistant resistant resistant 50 lim. res. lim. res. lim. res. lim. res. lim. res. Caustic soda, aqueous 10 resistant resistant resistant resistant resistant 50 lim. res. lim. res. lim. res. lim. res. lim. res. Chlorine gas 100 not res. not res. not res. not res. not res. Chlorine water not res. not res. not res. not res. not res. Chlorobenzene resistant resistant lim. res. resistant resistant Chloroform 100 not res. lim. r. not r. not res. not res. not res. Chromic acid, aqueous 10 not res. not res. not res. not res. not res. Coconut oil resistant resistant resistant resistant resistant Cooking fats resistant resistant resistant resistant resistant 15

3 Polyamide (PA) 3.4 Chemical resistance of polyamide Tested substance concen- Polyamide: tration % 6 6.6 6.10 11 12 lim. res. lim. not res. lim. r. not r. res. lim. res. = limited resistance = limited not resistant = limited resistance to not resistant = resistant to limited resistance Cooking oils resistant resistant resistant resistant resistant Copper (II) salts of mineral acids lim. res. lim. res. lim. res. lim. res. lim. res. Cresol not res. not res. not res. not res. not res. Cyclohexane 100 resistant resistant resistant resistant resistant Cyclohexanol 100 resistant resistant resistant resistant resistant Cyclohexanone 100 resistant resistant resistant resistant resistant D Dexalan resistant resistant resistant resistant resistant Dibutylphtalate resistant resistant resistant resistant resistant Diesel oil resistant resistant resistant resistant resistant Dimethylformamide 100 resistant resistant resistant resistant resistant Dioctyl phthalate resistant resistant resistant resistant resistant Dioctylphthalat resistant resistant resistant resistant resistant Dioxane resistant resistant resistant resistant resistant E Ethyl acetate 100 resistant resistant resistant resistant resistant Ethyl alcoholl 96 res. lim. res. res. lim. res. res. lim. res. resistant resistant Ethyl ether 100 resistant resistant resistant resistant resistant Ethylenediamine resistant resistant lim. res. F Formaldehyde, aqueous 30 res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Formic acid, aqueous 10 not res. not res. not res. not res. not res. 85 soluble soluble not res. not res. not res. Fruit juices res. lim. res. res. lim. res. resistant resistant resistant G Glycerine resistant resistant resistant resistant resistant Glykol res. lim. res. resistant resistant resistant resistant H Haloalkanes, liquid resistant resistant resistant resistant resistant Heating oil resistant resistant resistant resistant resistant Heptane resistant resistant resistant resistant resistant Hexane resistant resistant resistant resistant resistant Hydrochloric acid, aqueous 2 not res. not res. not res. not res. not res. Hydrofluoric acid, aqueous 40 not res. not res. not res. not res. not res. Hydrogen peroxide, aqueous 10 not res. not res. not res. not res. not res. Hydroquinone, aqueous res. lim. res. res. lim. res. resistant resistant resistant I India ink resistant resistant resistant resistant resistant Ink resistant resistant resistant resistant resistant Iodine tincture, alcohol-based usual not res. not res. not res. not res. not res. 16

3 Polyamide (PA) 3.4 Chemical resistance of polyamide Tested substance concen- Polyamide: tration % 6 6.6 6.10 11 12 lim. res. lim. not res. lim. r. not r. res. lim. res. = limited resistance = limited not resistant = limited resistance to not resistant = resistant to limited resistance Iron (III) chloride, aqueous (acid) 10 not res. not res. not res. not res. not res. Isooctane resistant resistant resistant resistant resistant Isopropyl alcohol res. lim. res. resistant res. lim. res. res. lim. res. resistant L Lactic acid, aqueous 10 res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Lavender oil 100 resistant resistant resistant resistant resistant Linseed oil resistant resistant resistant resistant resistant Lugol's iodine, aqueous 3 not res. not res. not res. not res. not res. M Mercury resistant resistant resistant resistant resistant Mercury (II) chloride, aqueous 6 not res. not res. not res. not res. not res. Methyl alcohol 100 res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Methyl ethyl ketone 100 resistant resistant resistant resistant resistant Methylene chloride 100 lim. r. not r. lim. res. not res. lim. r. not r. lim. res. Milk resistant resistant resistant resistant resistant Mineral oils resistant resistant resistant resistant resistant N Naphtalene resistant resistant resistant resistant resistant Nitric acid, aqueous 2 not res. not res. not res. not res. not res. Nitrobenzene lim. res. lim. res. lim. res. lim. res. lim. res. O Oil of cloves resistant resistant resistant resistant resistant Oleic acid resistant resistant resistant resistant resistant Oxalic acid, aqueous 10 lim. res. lim. res. lim. res. lim. res. lim. res. Ozone not res. not res. not res. not res. not res. P Paraffin oil resistant resistant resistant resistant resistant Perfumes res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Petroleum resistant resistant resistant resistant resistant Petroleum ether resistant resistant resistant resistant resistant Phenol, aqueous not res. not res. not res. not res. not res. Phenol, molten 100 soluble soluble soluble soluble soluble Phenylethyl alcohol lim. res. lim. res. lim. res. lim. res. lim. res. Phosphoric acid, aqueous 10 not res. not res. not res. not res. not res. Phtalic acid, aqueous sat. lim. res. lim. res. lim. res. lim. res. lim. res. Potassium dichromate, aqueous 5 lim. res. lim. res. lim. res. lim. res. lim. res. Potassium nitrate, aqueous 10 resistant resistant resistant resistant resistant Potassium permanganate, aqueous 1 not res. not res. not res. not res. not res. Propanol res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. Pyridine resistant resistant resistant resistant resistant 17

3 Polyamide (PA) 3.4 Chemical resistance of polyamide Tested substance concen- Polyamide: tration % 6 6.6 6.10 11 12 R Resorcin soluble soluble soluble soluble soluble Rose oil resistant resistant resistant resistant resistant S Salicylic acid resistant resistant resistant resistant resistant Silicone oil resistant resistant resistant resistant resistant Soap solution, aqueous resistant resistant resistant resistant resistant Sodium bisulfite, aqueous 10 resistant resistant resistant resistant resistant Sodium carbonate, aqueous 10 resistant resistant resistant resistant resistant Sodium chloride, aqueous 10 resistant resistant resistant resistant resistant Styrene resistant resistant resistant resistant resistant Sulfur resistant resistant resistant resistant resistant Sulfuric acid, aqueous 2 not res. not res. not res. not res. not res. 10 not res. not res. not res. not res. not res. 40 not res. not res. not res. not res. not res. 98 soluble soluble soluble soluble soluble T Table salt, aqueous 10 resistant resistant resistant resistant resistant Tallow resistant resistant resistant resistant resistant Tar, free from aromatic compounds resistant resistant resistant resistant resistant Tetrahydrofuran 100 resistant resistant res. lim. res. resistant res. lim. res. Tetralin resistant resistant resistant resistant resistant Toluene resistant resistant resistant resistant resistant Transformer oil resistant resistant resistant resistant resistant Trichloroethylene res. lim. res. res. lim. res. not res. not res. not res. Triethanolamine resistant resistant resistant resistant resistant U Urea, aqueous resistant resistant resistant resistant resistant V Vaseline resistant resistant resistant resistant resistant Vinyl chloride resistant resistant resistant resistant resistant W Water resistant resistant resistant resistant resistant Water, hot (70 C) lim. r. not r. lim. r. not r. lim. r. not r. lim. r. not r. lim. r. not r. Waterglass resistant resistant resistant resistant resistant Wax, molten resistant resistant resistant resistant resistant Wine res. lim. res. res. lim. res. res. lim. res. res. lim. res. res. lim. res. lim. res. lim. not res. lim. r. not r. res. lim. res. = limited resistance = limited not resistant = limited resistance to not resistant = resistant to limited resistance 18

3 Polyamide (PA) 3.4 Chemical resistance of polyamide Tested substance concen- Polyamide: tration % 6 6.6 6.10 11 12 lim. res. lim. not res. lim. r. not r. res. lim. res. = limited resistance = limited not resistant = limited resistance to not resistant = resistant to limited resistance X Xylol resistant resistant resistant resistant resistant Z Zinc chloride lim. res. lim. res. res. lim. res. lim. res. lim. res. 4 Integral foam (polyurethane) This type of foam offers the advantage of having a closed-pored surface akin to a skin which is approximately 1 2 mm thick. The material is impervious to liquids, dirt and germs and therefore easy to clean and to disinfect. Nowadays integral foam parts are very often used for medical and cosmetic products. Shower seats in hospitals, arm pads on wheelchairs, add-on parts for dialysis beds, just to name a few, are made of this material and have been found to be physiologically harmless. These foams have been approved according to DIN EN 30993. The production processes of integral foam are very similar to those of other PU foam parts, without CFC, azo dyes or PCB, containing no heavy metals. 4.1 Chemical properties PP is characterized by an excellent resistance to chemicals and a limited resistance to acids and bases. 4.2 Physical properties The foam parts conform with the standard DIN 75200 and with the American Standard for Automobile Interior Equipment and also meet all the requirements of DIN EN 1021 Part 1 and 2, low specific weight (density). However, hard and sharp objects may damage the surface structure when used improperly. 4.3 Cleaning From experience, we advise using a cleaner that is composed of soapsuds. Integral foam is characterized by a good resistance to oils, fats, lubricants, as well as to weak bases. In contrast, it is badly deteriorated by aggressive acids and bases. Never use a cleaner containing inorganic solvents to clean plastic parts. This material is resistant to most household used cleaners, especially detergents, alcohol and bases. Integral, however, is not resistant to acids. We have learned from practical experience that all cleaners composed of soapsuds are ideally suited to clean integral foam. Abrasive cleaners destroy the surface structure and may leave matt blemishes. We therefore strongly advise against abrasive cleaners. 4.4 The following parts are made of integral foam: Seat pads of the 7100 benches made of perforated steel Seat and back pads of the benches 7010 and 7020 Pads of the bench series 8000 etc. 19

5 Cleaning and care instructions for HPL and MFC tops, lipping and laminated seat shells All commercially available cleaners, such Pril, soapsuds, Rei, Dor, etc. can be used to clean HPL and MFC tops. In case of stubborn stains, cleaning solvent, turpentine or spirits can be used (however no scouring agents). Even high-quality plastics can get damaged! Therefore never use any grinding or scouring cleaners! Do not put any hot pans or irons on plastic-coated surfaces! HPL table tops are resistant to boiling water. In case aggressive cleaners or mixtures are used in hospitals, we recommend prior testing on material samples by way of precaution. When cleaning the lipping, please make sure that not too much cleaning liquid comes in contact with the lipping joint or with the wooden lipping. The surfaces should be cleaned with a soft, clean, non-fluffy cloth. In order to remove sticking dust or light soiling, you can use normal cloths, moisten them with water and add a small quantity of commercially available cleaners and wipe the surface clean without applying too much pressure (no scouring!). Subsequently, wipe the surface dry with a clean cloth. Commercially available all-purpose cleaning products, such as Mr. Clean, Ajax, Sidolin, or water-soluble washing powders, are suitable. Please use these cleaning products according to the manufacturer s instructions as indicated on the packaging! In case of stubborn stains, the above-mentioned cleaning products can be used in higher concentrations with longer application times (f.i. Bref Power or similar fat solvents), however never use them undiluted! Always rinse the surface generously with clear water or glass cleaner using clean cloths and subsequently wipe the surface dry. Never use scouring milk, such as ATA, Viss, or similar cleaners containing scouring agents, as these products might damage the surface and leave unsightly scratches or scouring marks. We strongly advise against the use of aggressive bathroom or toilet cleaners. In case of stubborn stains, such as coffee or red wine, we recommend frequent cleaning cycles. Cleaning dilutions or cleaning solvents can be used to keep the surfaces clean (Attention: inflammable!). The surfaces must be rinsed with clear water every time without fail. Especially EM surfaces need regular cleaning cycles. Liquids, such as coffee, milk, should be wiped off as soon as possible and not be left to dry. 20

5 Cleaning and care instructions for HPL and MFC tops, lipping and laminated seat shells The international committee of manufacturers of decorative synthetic surfaces has issued the following recommendations regarding the cleaning and care of HPL and MFC tops: Lightly soiled table tops can be cleaned with a soft, moistened cloth More persistent stains can be treated with some hot soapy water or with a commercially available cleaner which does not contain any scouring agents in order to avoid scratches on the surface Stubborn stains, such as varnishes, lacquers, adhesives, ink, lipsticks, can be removed with organic solvents, f.i. acetone, trichloroethylene, cleaning alcohol, etc. Washable The surface of HPL and MFC table tops is resistant to the following substances: Acetone, alcohol, red and white wines, spirits, beer, benzine, benzol, blueberries, cola drinks, vinegar, meat and sausages, lemonades, coffee, tea, cocoa, potassium permanganate, carbolic acid 5 %, lipstick, milk and dairy products, nail polish and nail polish remover, fruit and vegetable juices, petroleum, ammonium hydroxide, salt solutions, shoe polish, soap and detergents, mustard, soda 2 %, turpentine, carbon tetrachloride, animal and vegetable fats and oils, ink and recording ink, hot water, citric acid, onions. Alcohol Stain resistant, f.i. to ink Acetone, etc. Resistant to cigarette burns 21

5 Cleaning and care instructions for HPL and MFC tops, lipping and laminated seat shells On the following page, you find the cleaning recommendations with regard to HPL table tops issued by the Technical Group Decorative Laminated Table Tops within the department Semi-Finished Products at the Frankfurtbased GKV (German Association of the Plastics-Processing Industry) (last update: April 2000) These cleaning instructions have been worked out by the International Committee of the Decorative Laminates Industry (ICDLI) according to the latest developments in processing technology in Europe. Laminated seat shells The laminated seat shells of series 2100_2180 uni_verso can be cleaned with some hot soapy water or with a commercially available cleaner. Please take heed that the cleaner doesn t contain any scouring agents at the risk of damaging the surface. Heavy soiling can be treated with acetone. 5.1 Comments and remarks on the table 1. Application area The information supplied in the table on the following page applies to surfaces of decorative high-pressure laminated (HPL) and MFC table tops according to EN 438, part 1, and to the parts produced with these materials. These cleaning instructions apply to all types of soiling, either due to normal usage or caused during the processing and assembly of HPL parts. 2. General remarks HPL table tops do not require any particular care because of their hardwearing and hygienically impervious surface. In general, HPL surfaces are easy to clean; this rule also applies to textured HPL surfaces. No care products are necessary! Furniture polish as well as all cleaners containing wax tend to fill up the surface texturing, building a sticky, unsightly, dirtbinding film; we strongly recommend against using this type of cleaners! While in use, the decorative laminates should be cleaned regularly. Please use mild cleaners that do not contain any scouring agents, as these can scratch the surface or reduce the surface s gloss level. In case of heavy soiling, special cleaners may be necessary. In such cases, please observe the manufacturer s instructions (f.i. adequate ventilation, etc.) 3. Special recommendations for high-gloss surfaces Special attention should be given when cleaning high-gloss HPL surfaces. We strongly recommend against the use of cleaners containing scouring or grinding agents or Vienna chalk, as these products can lead to an irreversible change in the gloss level. It is absolutely imperative to remove grains of dust or any other impurities from the surface before the actual cleaning process in order to avoid scratches. Please only use residue-free drying cleaners or cleaning solutions and subsequently wipe the HPL surface dry with a soft, clean, absorbent and dry paper cloth (paper towel) without leaving streaks. 4. Cleaning instructions The cleaning instructions as well as all elaborations on possible difficulties in this table are arranged according to the soiling degree. We would like to stress the fact that the mildest cleaning method must be applied first before trying a more aggressive method. 22

5 Cleaning and care instructions for HPL and MFC tops, lipping and laminated seat shells 5.2 Attention! Regularly clean HPL surfaces in use. No care product is necessary! Do not use any grinding or scouring products (scouring powder, steel wool), no polishing agents, waxes, furniture polish, bleach, Do not use any cleaners containing strong acids or salts, such as descalers, containing formic acid or amino sulphoric acid, drain cleaner, hydrochloric acid, silver cleaner, oven cleaner. If solvents are uses: observe all instructions with regard to prevention of of accidents! Open windows! No open flame! Soiling (examples) Dust, dirt, dust/fat mixture pencil, chalk Lime rests lime rings, water rings, rust Coffee, tea, fruit juices, sugar solutions Fat, oil, fingerprints, felt tips, highlighter, ballpoint pen, nicotine stains (tar), rubber marks Wax (candles, separating agent for presses), wax chalk Lipstick, shoe polish, floor polish, wax polish, all-purpose pens Bacteriologic soiling (soap rests, skin particles, germs, blood, urine, excrements Shadings after treatment with solvents (streaks) Water soluble colours, stain colours, dispersion paints, water soluble adhesives Lacquers containing solvents, lacquers, colours and solvents (lacquer rests, spray dolour, stamp ink) 2 component lacquer + glue synth. resins (polyurethane, etc.) Silicone, sealing compounds, furniture cleaning products Kind of soiling Light fresh soiling 1 2 3 4 5 6 7 8 9 10 11 12 Tissue paper; soft clean cloth,(dry or damp) sponge, etc. In case of damp cleaning, dab dry with tissue paper. Organic solvents Remove immediately water or organic solvents Important: Streaks usually are caused by cleaning with organic solvents, cold water, if cloth or chamois is used several times. To avoid shadings or streaks, rinse with hot water and dry with tissue paper. Dab dry; silicone remover Normal soiling. Longer application times Clear hot water, clean cloth, soft sponge or brush (nylon for instance). Commercial cleaners without scouring agents, or normal washing powder, soft soap or laundry soap. Foam with cleansing agent solution, leave to react, then take off with clear water or glass cleaner. Rinse off several times if necessary. Remove traces of cleaning agent to avoid streaks. Dab dry with clean absorbent cloth (better: tissue paper). Change cloth often. Organic solvents, for instance acetone, spirit, cleansing benzine, nail polish remover Cleaning possible only before hardening! Remove immediately after contact with water or organic solvents. Silicone remover Organic solvents, for ex. Acetone, spirit cleaning benzine, nail polish remover. Paraffin and wax: remove mechanically. Avoid scratches. Use plastic or wood spatula. Use an iron and blotting paper to remove rests. Additional treatment with disinfectant. Cleaning with steam possible, disinfecting according to applicable regulations. Water or organic solvents For serial processing of adhesives, ask manufacturer which products to use for removing soiling occurring during processing. Strong persistent soiling, old stains Leave detergent or detergent/water mixture to react over night. Liquid cleaner with finest Vienna polishing chalk Mild bleach with reservation. Remark: Use Liquid cleaner with polishing chalk or bleach only occasionally! Attention for glossy finishes! Compare item 3 of explanations! For persistent lime an acid containing cleaner (10% acetic or citric acid) may be used. Soak with water or organic solvent, then peel off. For modified adhesives with higher water resistance a special cleaner must be used. Colour rests sometimes can be mechanically removed after hardening; graffiti requires special cleaning No cleaning possible! Rest of hardened condensation and reaction resin glues etc. cannot be removed after hardening. Resistance to disinfectants of plastics. Please consult our Cleaning + Disinfection Manual for more information on this subject. 23

6 Polyester felt Owing to the fact that the fibres are non-absorbent, stains can be removed with a vacuum-cleaner; stubborn stains must be treated with a spray extraction cleaner. Dab spilled liquids away with an absorbent cloth. Dried-in stains can be removed using a mild cleaning agent and a soft brush, subsequently vacuum-clean. In the long term, signs of usage are inevitable given the soft surface texture. We therefore recommend regular cleaning and brushing cycles. It is to be expected that the surface texture is roughened or smoothed through permanent use. This material is not resistant to strong mechanical impacts concentrated on one spot. Disinfectants can theoretically be applied to the seat shell. However, due to the rough surface, any disinfectant would loose some of its efficiency. We therefore advise against the use of disinfectants. 7 List of plastic cleaners and suppliers Special plastic cleaners, antistatic special plastic cleaners UNICHEM, P.O. Box 8017, 89218 Neu-Ulm Liquid cleaner for plastic surfaces VOTTELER Lackfabrik, GmbH + Co. KG, Schwieberdinger Straße 92 102, 70825 Korntal-Münchingen, Germany Rhoba-Clean L 600 RHOBA-CHEMIE GmbH, Gustav-Winkler-Straße 32a, 33699 Bielefeld, Germany Plastic cleaner FSG Schäfer GmbH, Boschstraße 14, 48703 Stadtlohn, Germany DN Plastic cleaner Ostermann GmbH, Schlavenhorst 85, 46395 Bocholt, Germany Last update: August 2012 Kusch+Co 2011 This information is protected by copyright. All rights reserved. 24