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Platzhalter Titelbild Superabsorbent Polymers (SAP) as Water-Blocking Components in Cables Martin Tennie ICC Meeting November.

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Presentation on theme: "Platzhalter Titelbild Superabsorbent Polymers (SAP) as Water-Blocking Components in Cables Martin Tennie ICC Meeting November."— Presentation transcript:

1 Platzhalter Titelbild Superabsorbent Polymers (SAP) as Water-Blocking Components in Cables Martin Tennie (martin.tennie@evonik.com) ICC Meeting November 2012 St.Petersburg, Florida, USA

2 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Modern Superabsorbents Seite | 2

3 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Modern Superabsorbents Seite | 3 SAP is a crosslinked and partely neutralized (mostely with Sodium) poly-Acrylic-Acid forming a 3-dimensional network COO Na COOH COO Na COOH COO Na COOH COO Na Na OOC HOOC Na OOC HOOC

4 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Polymerisation Seite | 4 Radical Chain Polymerisation I-CH 2 -CH-CH 2 -CH-COOH COOH  I-CH 2 -CH-COOH  I  + CH 2 =CH-COOH I-CH 2 -CH-COOH  + CH 2 =CH-COOH I  : Radicalic Starter I-CH 2 -CH-CH 2 -CH-COOH COOH  + CH 2 =CH-COOH I-CH 2 -CH-CH 2 -CH-CH 2 -CH COOH 

5 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Crosslinking Seite | 5 Time Temp. Time Temp. Time Temp. I-CH 2 -CH-CH 2 -CH-CH 2 -CH COOH -I I I I Short chains „Extractables“

6 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Polymerdesign and Properties Seite | 6 Absorption/Retention: Funktion of cross-linking Retention / Absorption Degree of crosslinking (crosslinker/ monomer ratio) High retention capacity

7 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Polymerdesign and Properties Seite | 7 Elasic Modulus: Funktion of cross-linking Gel Strength / Absorption under load Degree of crosslinking Soft swollen gel Easily deformed High gel strength SAP Not easily deformed

8 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Polymerdesign and Properties Seite | 8 Absorption speed: Function of elasticity (cross-linking) and particle size Small particle large outer surface Large particle small surface area Relaxing force vs swelling force Swelling Force Relaxing Force

9 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Hydrolysis Stability Seite | 9 Turning from a particle of hydrogel into a viscous liquid Energy/Water Breaking the x-linkingBreaking the chains

10 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Product Properties Seite | 10 Absorption Speed Absorption/Retention Hydrolysis Stability “Gelstrength” Elastic Modulus Water Conductivity “Permeability”

11 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Core Property - Permeability Seite | 11 Permeability means water transport through a mass of swollen SAP High permeability Low Permeability

12 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Influencing the Permeability Seite | 12 Particle shape

13 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Influencing the Permeability Seite | 13 Extractables: Short to mid chain length and not incorporated to the network and water soluble. Acting as thickener and increase the viscosity of water. Darcy´s Law: = Pressure difference driving the permeation = Specific permeability of sample = Cross-sectional area of sample = Length of sample = Viscosity of fluid

14 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Tested SAP Materials Seite | 14 Sample Code 123456 MorphologyBead Crystal Absorption in DI Water [g/g] 460440380260200210 Absorption Speed [mm after 1 min.] > 16 161237

15 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation at 80 °C Seite | 15 Degradation of hydrogel made with DI-water (x-axis not linear)

16 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation at 80 °C Seite | 16 Degradation of hydrogel made with Synthetic Sea Water (DIN 50900) (x-axis not linear)

17 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation at 80 °C Seite | 17 Degradation of hydrogel made with hard tap-water (Grade4) (x-axis not linear)

18 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 18 What the numbers mean in reality – A non stable product

19 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 19 What the numbers mean in reality – A non stable product 3 weeks later

20 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 20 What the numbers mean in reality– A non stable product

21 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 21 What the numbers mean in reality – A stable product

22 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 22 What the numbers mean in reality – A stable product 3 weeks later

23 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Gel Degradation Seite | 23 What the numbers mean in reality– A stable product

24 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Rheological Properties Seite | 24 Correlation E-modulus and degree of saturation (DI-water)

25 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Rheological Properties Seite | 25 Gelstrength of 100% saturated (DI-water) SAP

26 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 26 Shematic and real set-up of test equipment

27 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 27 Picture of a treated capillary. The red lines indicates the measured penetration distance.

28 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 28 TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5114112 10224112 20224112 60224222 120234222 480334332 Days 1696455 28148687 31018118108 41220129118 5152313101210 6182414121411 7303616131511 Density [g/g] 365375385380360385 DI Water at 20 °C

29 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 29 DI-Water at 60 °C TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5000011 10001112 20012122 60112122 120114223 480216343 Days 1438775 2182014998 320261812 10 4283321151412 5344823171614 6455425191815 755602620 15 Density [g/g] 375385380390380375

30 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 30 Tap Water (Hardness 4) at 20 °C TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5112203 10113214 20124314 60224324 120225324 480235544 Days 15791086 212131012 7 315161215 8 4202313181710 522251520 13 624281822 14 728312024 14 Density [g/g] 365370385390385375

31 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 31 Tap Water (Hardness 4) at 60 °C TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5001112 10112112 20112213 60113213 120224324 480234325 Days 1710 12109 2151814 1311 318241617 13 425301821 15 5303722242316 6354527292517 7405030322717 Density [g/g] 380395375380390370

32 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 32 Synthetic Seawater (DIN 50900) at 20 °C TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5221312 10351322 20351322 60352422 120372423 480372433 Days 15108 57 21426121489 31629141610 42034161712 52238171814 6244019181615 7264420241815 Density [g/g] 365370395385370375

33 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Permeability Determination Seite | 33 Synthetic Seawater (DIN 50900) at 60 °C TimeSample 1Sample 2Sample 3Sample 4Sample 5Sample 6 Minutes 5010112 10110112 20111212 60221223 120222233 480332343 Days 17961068 2161815161011 3202519181213 4253122201514 5273625231817 6304227251918 7324829302118 Density [g/g] 395390370375365380

34 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Discussion and Conclusion Seite | 34 Correlation E-Modulus and Penetrationlength (DI-Water at 20 °C]

35 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Discussion and Conclusion Seite | 35 Not the initial swell speed and high absorption capacity guaranted long term sealing. Important is rheological structure and hydrolysis stability of swollen SAP is key factor. Testing the parameters hydrolysis-stability and permeability of swollen SAP at higher temperatures show performance differences in short time.

36 Martin Tennie ICC Meeting Nov.2012, St. Petersburg, Florida Expression of Thanks Seite | 36 Mr. Alton Deaton Dr. Jochen Houben Mr. Bobby Mitra Dr. Scott Smith and all of you for your interest.

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