Price list. Institute for Paper, Pulp and Fibre Technology. January 2015

Last modification 15.09.2015 Price list Institute for Paper, Pulp and Fibre Technology January 2015 1 TESTING OF PAPER AND PAPERBOARD 1.0 Sample preparation Page 2 1.1 Basic properties Page 2 1.2 Composition Page 3 1.3 Strength properties Page 4 1.4 Force-deformation Behaviour Page 6 1.5 Surface properties Page 6 1.6 Optical properties Page 7 1.7 Structural properties of paper Page 8 1.8 Printability properties Page 9 1.9 Liquid-Paper Interactions Page 9 1.10 Barrier properties against gases and liquids Page 11 2 TESTING OF PULP AND ADDITIVES 2.0 Chemical pulp, mechanical pulp and waste paper testing Page 11 2.1 Testing of fillers and coating pigments Page 13 2.2 Preparation and Testing of Coating Color Page 14 3 CONDITIONS OF CONTRACT Page 15 Discounts and express or overtime pay Further information on prices and services Seite 1 von 16

1.0 SAMPLE PREPARATION 1 Conditioning of samples n.a. Paper and board, 23 /50% DIN EN 20187 1993 11 ISO 187 1990 12 TAPPI T 402 sp-13 2013 V/1.1/86 20.Mär.86 Climate chamber for other testing climates described in ISO 554 1976 07 Climate Chamber per day 47,00 1.1 BASIC PROPERTIES 1 Grammage EN ISO 536 2012 07 11,50 Paper and board DIN EN ISO 536 2012 11 ÖNORM EN ISO 536 2013 02 ISO 536 2012 07 TAPPI T 410 om-13 2013 V/11/57 01.Jul.57 Corrugated board DIN ISO 3039 2011 06 Tissue paper DIN EN ISO 12625-6 2005 05 20,00 V/29.2/81 25.Mär.81 2 Grammage - CD profile 10 test points (air-dry), sampling at defined positions 19,50 10 test points (oven-dry) 13,50 3 Thickness, density, bulk EN ISO 534 2011 11 24,00 Paper and board DIN EN ISO 534 2012 02 ISO 534 2011 11 TAPPI T 411 om-10 2010 Tissue paper DIN EN ISO 12625-3 2014 09 V/29.3/81 25.Mär.81 4 Measurement of hygroexpansivity, 3 climates DIN ISO 8226-1 1998 05 133,50 2 climates 102,50 5 Dirt and shive determination in paper and board Visual estimation of impurities (mm²/m²) with TAPPI dirt count charts DIN EN ISO 15755 1999 11 98,00 TAPPI T 437 om-12 2012 Seite 2 von 16

1.2 BASIC PROPERTIES Moisture content Oven-drying method (paper and board) EN ISO 287 2009 06 31,50 ISO 287 2009 06 DIN EN ISO 287 2009 09 TAPPI T 412 om-11 2011 Tissue paper DIN 54540-9 2007 10 2 Ash DIN 54370 2007 06 39,00 Paper and board, 900 C ISO 2144 2015 05 T 413 om-02 2002 IV/40/77 15.Sep.77 Pulp, 575 C ISO 1762 2001 12 525 C TAPPI T 211 om-12 2012 3 Fiber analysis microscopy, qualitatively with photos ISO 9184-1 1990 12 64,00 TAPPI T 401 om-08 2008 IV/55/74 01.Dez.74 Fiber analysis microscopy, qualitatively without photos 34,00 4 Filler distribution in z-direction VAP-method 532,00 5 ph of aqueous extracts - hot extraction ISO 6588-2 2012 11 90,00 DIN 53124 1998 08 TAPPI T 435 om-11 (paper) 2011 TAPPI T 252 om-12 (pulp) 2012 for contact with food ÖNORM EN 647 1994 03 DIN EN 647 1994 01 Cellulosic papers for electrical purposes DIN EN 60554-2 2002 12 n.a. 6 ph of aqueous extracts - cold extraction ISO 6588-1 2012 11 81,50 DIN 53124 1998 08 TAPPI T 509 om-11 2011 for contact with food ÖNORM EN 645 1994 03 7 Change in ph over time VAP-Method 215,00 8 Acid-insoluble ash ISO 776 2011 08 196,00 DIN 54373 1989 09 IV/49/69 29.Sep.69 9 Acid-insoluble lignin in wood and pulp TAPPI T 222 om-11 2011 184,50 Seite 3 von 16

10 Acetone-soluble matter DIN EN ISO 14453 2014 09 98,00 ÖNORM EN ISO 14453 2014 06 SCAN-CM 49:03 2003 dichloromethane-extract TAPPI T 204 cm-07 2007 IV/43/67 23.Okt.67 11 Conductivity of aqueous extracts ISO 6587 1992 04 88,50 DIN 53114 1990 09 DIN EN 60554-2 2002 12 12 Detection of starch Merck, S 298 17,00 13 CMC - qualitative detection Wochenblatt d. Papierfabrikatio 17/1970 88,50 1.3 STRENGTH PROPERTIES 1 Tensile strength, stretch at break, tensile index EN ISO 1924-2 2008 12 53,50 tensile energy absorption DIN EN ISO 1924-2 2009 05 ISO 1924-2 2008 12 V/12/57 01.Jul.57 TAPPI T 494 om-13 2013 Constant rate of elongation (100 mm/min) ISO 1924-3 2005 07 Tissue paper DIN EN ISO 12625-4 2005 09 tensile strength of perforated lines - Calculation of perforation efficiency DIN EN ISO 12625-12 2010 05 2 Tensile strength after immersion in water ISO 3781 2011 09 63,00 DIN ISO 3781 2012 07 SCAN-P 20:95 1995 Tissue paper DIN EN ISO 12625-5 2005 09 Initial wet tensile strength with blotting paper VAP-Method 75,50 3 Bursting strength, burst index ISO 2758 2014 12 49,00 Paper DIN EN ISO 2758 2014 12 TAPPI T 403 om-10 2010 V/12/57 01.Jul.57 Board ISO 2759 2014 10 DIN EN ISO 2759 2014 10 TAPPI T 807 om-11 (einwellig) 2011 TAPPI T 810 om-11 (Liner) 2011 4 Bursting strength after immersion in water DIN ISO 3689 1994 07 53,50 ISO 3689 1983 09 ZM VIII/1/66 1966 5 Tear resistance, tear index (Elmendorf) per direction EN ISO 1974 2012 05 49,00 ÖNORM EN ISO 1974 2012 07 DIN EN ISO 1974 2012 09 ISO 1974 2012 05 TAPPI T 414 om-12 2012 V/12/57 01.Jul.57 Seite 4 von 16

6 Tear test - Brecht-Imset-method, per direction DIN 53115 2008 05 48,00 V/12/57 01.Jul.57 7 Folding endurance / double folds (Schopper method) ISO 5626 1993 11 46,00 per direction TAPPI T 423 cm-07 2007 V/12/57 01.Jul.57 8 Flat crush of corrugated medium (CMT test) EN ISO 7263 2011 02 81,50 DIN EN ISO 7263 2011 05 ÖNORM EN ISO 7263 2011 05 ISO 7263 2011 02 TAPPI T 809 om-11 2011 9 Flat crush test (FCT) DIN EN ISO 3035 2012 02 46,00 ISO 3035 2011 11 TAPPI T 808 om-13 2013 10 Internal bond strength (z-direction) TAPPI T 541 om-10 2010 88,50 DIN 54516 2004 10 11 Internal bond strength (Scott-Bond), per direction TAPPI T 569 om-14 2014 53,50 12 Ring crush test (RCT), per direction DIN 53134 2005 04 63,00 ISO 12192 2011 09 TAPPI T 822 om-11 2011 13 Surface strength of paper - wax picking test (Dennison) TAPPI T 459 om-13 2013 61,50 per Side 14 Folding endurance - mechanical pulp (Schopper method) ZM VI/1/66 45,00 per direction Korn Burgstaller S193 15 Ageing resistance DIN ISO 9706 2010 02 1106,50 Ageing resistance, climate chamber per day VAP-Method 47,00 16 Residual tensile strength after fold VAP-Method 66,50 17 E - module, per direction VAP-Method 83,00 (Zwick-Equipment Manual + Optimization of the parameters) 18 Compression strength, short span test (SCT) DIN 54518 2004 03 53,50 Short-span test ISO 9895 2008 10 Seite 5 von 16

1.4 FORCE-DEFORMATION BEHAVIOR 1 Force-elongation curves (Zwick) EN ISO 1924-2 2008 12 82,50 2 Elastic modulus, tensile energy absorption EN ISO 1924-2 2008 12 46,00 ISO 1924-2 2008 12 TAPPI T 494 om-13 2013 (measured together with tensile strength) 8,50 3 Bending stiffness (L&W), per direction ISO 2493-1 2010 11 46,00 SCAN-P 29:95 1995 V/20/70 02.Jun.70 VIII/5/68 19.Nov.68 4 Bending resistance (Taber, conversion from L&W) TAPPI T 489 om-13 2013 45,00 1.5 SURFACE PROPERTIES 1 Smoothness (Bekk), per side DIN 53107 2003 12 36,00 ISO 5627 2002 06 TAPPI T 479 cm-09 2009 V/23/73 17.Apr.73 2 Roughness/smoothness (Bendtsen), per side ISO 8791-2 2013 09 36,00 DIN 53108 2011 01 V/24/73 17.Apr.73 3 Smoothness (SPS), per side TAPPI T 460 om-11 2011 45,00 4 Smoothness (Gurley), per side TAPPI T 460 om-11 2011 45,00 5 Roughness of paper and paperboard (PPS), per side DIN ISO 8791-4 2008 05 45,00 TAPPI T 555 om-10 2010 BS 6563:1985 1985 6 Hardness (Bendtsen) - according to Büchel Equipment Manual 71,00 7 Hardness (Bekk), per side Korn Burgstaller, S 230 71,00 8 Coefficient of static friction DIN 53119-2 1997 07 165,50 5 samples each, per side and direction (20 samples) ÖNORM A 5506 1993 12 TAPPI T 815 om-12 2012 Seite 6 von 16

9 Compressibility and roughness of paper (UST) VAP-Method 130,00 Surface topography with and without load (UST) VAP-Method 77,00 rate per hour 5,00 10 Surface topography together with optical surface image (IFM) Alicona IFM VAP-Method IFM Optical Microscopy, imaging with diffusive illumination, standard: 5x5 pictures 59,50 Alicona IFM surface-topography, standard: 5x5 pictures 83,00 rate per hour 3,00 1.6 OPTICAL PROPERTIES 1 Brightness (Reflectance) 27,50 Basics ISO 2469 2014 08 ISO-Brightness R457 Paper and board C/2 ISO 2470-1 2009 10 D65-Brightness Paper and board D65/10 ISO 2470-2 2008 11 Tissue D65/10 DIN EN ISO 12625-7 2014 08 Tisuue C/2 DIN EN ISO 12625-15 2015-05 CIE Whiteness D65/10 (outdoor daylight) ISO 11475 2004 11 CIE Whiteness C/2 (indoor) ISO 11476 2010 08 Florescent specimens DIN 53145-1 2012 03 Non-flourescent speciments DIN 53145-2 2012 03 Tablets for optical testing of pigments DIN 53163 1988 07 2 Preparation of handsheets for the measurement ISO 3688 1999 03 109,00 of brightness (reflectance) TAPPI T 525 om-12 2012 3 Opacity DIN 53146 2000 04 55,00 ISO 2471 2008 12 TAPPI T 519 om-11 2011 4 Lightness (Y) DIN 53163 1988 07 27,50 5 CIELAB Color, per illuminant 33,50 d/0 / C/2 / L*a*b* ISO 5631-1 2009 10 d/0 / D65/10 / L*a*b* ISO 5631-2 2008 12 d/0 / C/2 / L,a,b, Hunter, C,h TAPPI T 527 om-13 2013 6 CIELAB Color difference (CMC) 71,00 7 ERIC 950 Effective Residual Ink Concentration Technidyne - Manual 122,50 8 Specular gloss 75, per side DIN ISO 8254-1 2009 09 27,00 with a converging beam, TAPPI method ISO 8254-1 2009 02 ÖNORM EN ISO 8254-1 2009 10 TAPPI T 480 om-09 (75 ) 2009 9 Light-scattering and -absorption coefficients DIN 54500 2008 09 53,50 SCAN-CM 27:00 2000 Seite 7 von 16

10 Transparency DIN 53147 1993 01 53,50 11 Optical brighteners, quantitativ detection VAP-Method 53,50 12 Optical brighteners, qualitativ detection VAP-Method 11,00 13 Accerelerated ageing, Yellowing (climate chamber) DIN ISO 5630-3 1997 06 n.a. ISO 5630/1 1991 02 ISO 5630/3 1996 06 ISO 5630/4 1986 12 TAPPI T 453 sp-13 2013 14 Yellowness index DIN 6167 1980 01 33,50 15 Image analysis, optical microscope, rate per hour VAP-Method 40,00 rate per day 179,00 + report (rate per hour) 129,50 16 High definition measurement of gloss, refractive index, microroughness (Surfoptics) VAP-Method Point measurement (10) per side and sample 34,50 Grid measurement (2x2cm) per side and sample 85,50 Grid measurement (4x4cm) per side and sample 135,00 17 Print density (Gretag Densitometer) VAP-Method 33,00 1.7 STRUCTURAL PROPERTIES OF PAPER 1 Formation index (MK-Tester) M/K II- Manual 45,00 CD-profile per DIN A4 28,50 2 Formation; transmitted light scanner (PTS DOMAS system) VAP-Method 56,50 one DIN A4 (4 single measurements) 40,50 3 High-resolution formation measurement (beta radiography) VAP-Method 135,00 max. grammage 130 g/m² evalution by image analysis 161,00 4 Fiber orientation in z-direction; FO angle, anisotropy Cleavage of 3 strips (~30 layers), Matlab VAP-Method 590,00 Cleavage of 3 strips (~30 layers), Optimas / Excel VAP-Method 655,00 5 Layer seperation VAP-Method n.a. corresponding to A5 per layer 23,50 Basis weight of layers of corrugated board ÖNORM A 5502 2010 03 Seite 8 von 16

6 Coating coverage (burnout test) VAP-Method 96,00 with image analysis 118,50 7 Coating thickness distribution (Microtomy images), video sequences VAP-Method n.a. 1.8 PRINTABILITY PROPERTIES 1 Resistance to picking (IGT Tester), per side and direction IGT-Manual 124,00 2 Penetration print (IGT Tester) IGT-Manual 66,00 3 Ink setting, visual assessment IGT-Manual 66,00 Ink setting for specified ink-paper combinations V/32/99 1999 + Color density measurement (Gretag) Gretag - Manual 122,00 4 Print gloss (Prüfbau) Prüfbau-Manual 149,50 (incl. Gloss-Lehmann) 5 Color density measurement (Gretag) per tone level VAP-Method 33,00 6 Ink penetration on paper cross sections VAP-Method 211,50 full tone, 100mm, measurement every 5 µm 7 IASU print unevenness (Mottling index) per tone level VAP-Method 104,00 8 Printing dot analysis (single dot) per tone level (3000 dots) VAP-Method 154,50 9 PF-Method 4 stripes (1x15cm, 8points) VAP-Method 170,00 10 Structure of printing ink penetration VAP-Method 100,00 6 per side and sample 11 Ink penetration (Microtome, Image Analysis) VAP-Method 248,50 1.9 LIQUID-PAPER INTERACTIONS 1 Water absortion - Cobb method, per side ISO 535 2014 02 63,00 DIN EN ISO 535 2014 06 TAPPI T 441 om-13 2013 2 Oil absorption (Cobb-Unger), per side SCAN-P 37:77 1977 80,00 3 Grease resistance 3M KIT Test (Castor oil) 3M - Manual n.a. Grease permeability KIT Test TAPPI T 559 cm-12 2012 n.a. Seite 9 von 16

4 Capillary rise - Klemm method, per direction DIN ISO 8787 1994 06 56,50 ISO 8787 1986 08 Suction velocity sec (0-10mm) VAP-Method (UA 2755) 5 Writing properties by ink, per side DIN 53126 2011 11 35,00 (pen-stroke-method) 6 Float test, per side Korn Burgstaller, S 245 35,00 7 Water absorption and swelling, water immersion DIN 53129 2011 11 45,50 VIII/2/67 01.Nov.67 8 Wet elongation, 5 per sample and direction + diagram VAP-Method 92,00 Tissue DIN 54540-5 2007 10 V/29.5/81 25.Mär.81 Korn Burgstaller S241 9 Wet Stretching of paper under one sided Liquid contact (WSD) VAP-Method 140,50 5 measurements per side + diagram 10 Penetration measurements with aqueous solutions (PDA) VAP-Method Standard (3 min) H 2 O (10 measurements per side) 96,00 others (Slurrys, Oils) 114,50 Analysis in Excel 31,50 11 Penetration measurements with aqueous solutions (PEA) VAP-Methode Standard (2 min) H 2 O (5 measurements per side) 96,00 others (Slurrys, Oils) 114,50 Excel averaging curves 31,50 Excel per time segment 31,50 12 Contact angle measurement (FIBRO), Excel T 558 om-10 2010 133,50 1 liquid Only Fibro-File 66,00 13 Surface tension and polarity, Contact angle method (FIBRO) T 558 om-10 2010 144,50 14 Water retention value (WRV) ISO 23714 2014 02 109,00 IV/33/57 01.Jän.57 15 Water-absorption time and water-absorption capacity EN ISO 12625-8 2011 04 72,00 Tissue, wire basket DIN EN ISO 12625-8 2011 04 16 Dissolution behavior of tissue papers, flake content VAP-Method 2007 09 74,50 Seite 10 von 16

1.10 BARRIER PROPERTIES AGAINST GASES AND LUIQUIDS 1 Air permeability - Bendtsen method ISO 5636-3 2013 11 36,00 DIN 53120-1 1998 06 V/26/75 15.Sep.75 2 Air permeability - SPS method TAPPI T 460 om-11 2011 45,50 3 Air permeability - Gurley method ISO 5636-5 2013 11 46,50 T 460 om-02 2002 4 Water vapour transmission rate - Dish method ISO 2528 1995 09 154,00 DIN 53122-1 2001 08 building materials and products DIN EN ISO 12572 2001 09 180,50 Flexible sheets for waterproofing DIN EN 1931 2001 03 TAPPI T 448 om-09, 23/50 2009 2 TESTING OF PULPS AND ADDITIVES 2.0 CHEMICAL PULP; MECHANICAL PULP AND WASTE PAPER TESTING 1 Laboratory cooking VAP-Method n.a. 2 Yield determination VAP-Method 71,00 3 Laboratory bleaching VAP-Method n.a. 4 Disintegration 37,00 Chemical pulps DIN EN ISO 5263-1 2004 12 Mechanical pulps DIN EN ISO 5263-2 2004 12 5 Hot-Disintegration of mechanical pulps at >= 85 C DIN EN ISO 5263-3 2004 12 100,00 6 Laboratory beating Jokro mill DIN 54360 2004 07 63,00 V/5/60 01.Nov.61 Beating to a certain freeness, all freeness levels are charged extra 161,50 7 Laboratory beating PFI-mill ÖNORM EN ISO 5264-2 2011 05 63,00 ISO 5264/2 2011 02 TAPPI T 248 sp-08 2008 Beating to a certain freeness, all freeness levels are charged extra 161,50 8 Laboratory beating Valley beater ISO 5264/1 1979 07 190,50 up to 4 beating levels point any further beating level 37,00 Beating to a certain freeness 301,50 Seite 11 von 16

9 Drainability Schopper-Riegler-value, CSF-value EN ISO 5267-1 2000 07 36,00 DIN ISO 5267-1 2000 10 ISO 5267/1 2001 03 ÖNORM EN ISO 5267-1 2000 10 V/7/61 01.Jul.61 10 Drainage time of pulp see above 21,00 11 Fines fraction by weight of paper stock by wet screening (Britt-Jar) VAP-Method 124,50 T 261 cm-00 2000 ISO 10376 2011 04 12 Washing of Pulp VAP-Method 68,00 13 Stock concentration (Rapid method) EN ISO 4119 1996 04 46,00 ISO 4119 1995 06 DIN EN ISO 4119 1996 05 ÖNORM EN ISO 4119 1999 06 14 Dry matter content EN ISO 638 2008 10 31,50 ISO 638 2008 10 DIN EN ISO 638 2009 01 ÖNORM EN ISO 638 2009 04 IV/42/67 23.Okt.67 15 Ash in pulp (575 C) ISO 1762 2001 12 38,50 16 Handsheet forming (Rapid-Köthen), 1 pulp, 5 hand sheets EN ISO 5269-2 2004 12 up to 5 hand sheets ISO 5269/2 2004 11 49,00 DIN EN ISO 5269-2 2005 03 ÖNORM EN ISO 5269-2 2005 04 any further 3,50 each additional fiber component 41,00 5 hand sheets free shrunk VAP-Method 64,50 any further 6,50 Addition of slurry on certain filler content VAP-Method 70,50 Addition of additives, per add VAP-Method 18,00 Hand sheets for dirt in pulp, in according to TAPPI T 213 om-10 2010 85,00 17 Initial wet strength (g/30mm) VI/1/66 1966 158,50 18 Content of flakes V/18/62 01.Sep.62 45,50 19 Dirt in pulp TAPPI T 213 om-10 2010 151,00 Büchner, 200 g/m² 20 Debris in pulp, transmitted light VAP-Methode 211,50 21 Shive content and fiber classification (Brecht-Holl method) VI/1/66 03.Feb.66 117,00 mesh 50 III/14/69 01.Dez.69 69,50 slotted screen only 69,50 22 Shive content and fiber classification (McNett method) TAPPI T 233 cm-06 2006 152,00 SCAN-CM 6:05 2005 V/1.4/86 20.Mär.86 Seite 12 von 16

23 Screening of pulp (Somerville) TAPPI T 275 sp-12 2012 90,00 24 Fiber length distribution, Coarseness (optical) ISO 16065-1 2014 04 Kajaani FS200 Kajaani-Manual 90,00 Excel without Coarseness 106,50 Excel with Coarseness 140,50 25 Fiber dimensions - Curl Fiber Tester ISO 16065-2 2014 01 135,00 Excel without Coarseness (Standard) 160,00 Excel with Coarseness (Standard) 211,50 26 Vessel cell content of pulps VAP-Methode 147,00 Disintegration DIN EN ISO 5263-1 2004 12 37,00 Coarseness Kajaani Kajaani-Manual 90,00 27 Kappa-number, with known dry matter content ISO 302 2004 07 71,00 DIN 54357 1978 08 TAPPI T 236 om-13 2013 IV/37/80 07.Jul.80 28 Viscosity of pulp (CED) ISO 5351 2010 02 168,00 TAPPI T 230 om-13 2013 Measurement of the average viscometric degree of polymerization of new DIN EN 60450 2008 03 and aged cellulosic electrical insulating materials 29 Alphacellulose in pulp ISO 699 2015-04 186,00 TAPPI T 203 cm-09 2009 IV/39/67 20.Feb.67 Alkali resistance DIN 54355 1977 11 186,00 Betacellulose in pulp 5,50 Gamma-cellulose in pulp 53,50 30 Alkali reserve (volumetric) ISO 10716 1994 12 118,50 31 Copper number Zellcheming IV/8/70 1970 118,50 2.1 TESTING OF FILLERS AND COATING PIGMENTS 1 Moisture content of fillers (oven dry method) VAP-Method 30,50 2 Dry matter content of fillers VAP-Method 30,50 3 Slurry preparation of dry fillers VAP-Method 44,00 4 Tablets for optical testing of pigments DIN 53163 1988 07 63,00 SCAN-P 89:03 2003 TAPPI T 534 om-09 2009 5 Test for pigments and fillers - ph value of an aqueous suspension DIN EN ISO 787-9 1995 04 27,00 Seite 13 von 16

2.2 PREPARATION AND TESTING OF COATING COLOR 1 Preparation of coating colors VAP-Method n.a. 2 Rheological properties (Paar Physica) VAP-Method n.a. Standard tests (amplitude sweep, jump test, flow curve) 85,50 3 Viscosity of slurrys (Brookfield) TAPPI T 648 om-14 2014 56,50 Starch TAPPI T 676 cm-08 2008 SCAN-P 50:84 1984 Anionic and nonionic dispersing V/27.9/98 1998 03 4 Coating with automatic hand blade instrument VAP-Method n.a. 5 Pilot Coater Trials, per hour VAP-Method 185,00 6 Calendering, 5 sheets VAP-Method 27,00 any further 3,50 Calendering with pre-wetting in a climate chamber VAP-Method 53,50 Seite 14 von 16

3 CONTRACT CONDITIONS 3.1 The acceptance of the order made on the basis of a written order. 3.2 All orders will be treated as confidential, the results of the investigation will be communicated only to the client. 3.3 All prices are without VAT (TU Graz charged by the Universities Act 2002, no VAT). 3.4 A lump sum for issuing the report (currently 27) will be charged. 3.5 Accretion of Discount percent discount 1-4 samples 0% 5-9 samples 10% 10-19 samples 20% 20-39 samples 30% 40 - mehr samples 40% Beispiel: 22 Bestimmungen (á 23 ) 1-4 4 samples with 0% discount 92 5-9 5 samples with 10% discount 103,5 10-19 10 samples with 20% discount 184 20-22 3 samples with 30% discount 48,3 Price 427,8 Discount 78,2 3.6 Express or overtime pay If overtime (working longer than until 17:00h or weekends) is necessary it will be charged with the double hourly rate of our laboratory technicians. 3.7 The with N. A. marked (according to expenditure) examinations will be charged at the hourly rate of the laboratory technicians. This also concerns additional time due to for example lack of sample size. 3.8 If procedures are not feasible or if the customer withdraws from the contract, the services and expenses to this point have to be paid by the customer. 3.9 The standards blue and bold in the price list are to be understood as the main standards corresponding to the ISO 17025 accreditation. Preis Seite 15 von 16