1-9 A-D E-G H-M N-P Q-S T-Z

TYLOSE H 300 P2

Tylose H 300 P2

Cas No: 9004-62-0

 

synonyms:
Tylose ; TYLOSE ; tylose ; HS ;hs ; Hs ;P2 ; P ;p2 ; 2p ; 2 ; Tylose Hs 10000 YP2 ; TYLOSE HS 100000 YP 2 i tylosehs 100000 yp 2 ; TYLOSEHS 100000YP2 ; TYLOSEHS 100000 YP2 ; TYLOSEHS100000YP2 ; tylose hs100000yp2 ; Tylose Hs100000YP2 ; diethanol disulfide, diethanol disulphide, bis(2-hydroxyethanol)disulfide ; 2-Hydroxyethyl cellulose ; Tris(2-hydroxyethyl)amine (triethanolamine) n-(2-hydroxyethyl)-N'-2-propenyl thiourea 1-(2-hydroxyethyl)-2-(heptadecenyl)imidazoline 1-(2-hydroxyethyl)-2-pyrrolidinone 1,3,5-tris(2-hydroxyethyl)triazine-2,4,6-trione Carboxymethyl cellulose Cellulose Cellulose acetate Ethyl cellulose ; Fuji HEC-HP;Fuji HEC-AG 15; NATRO-SOL 250HR; NATROSOL 250MH; NATROSOL 250G; CELLOSIZE QP 30000; TYLOSE H SERIES; NATROSOL 180L; NATROSOL 300H ; TYLOSE P-X; NATROSOL 250M; CELLOSIZE WP 4400; CELLOSIZE UT 40; NATROSOL 250H4R; Tylose H 20P; NATROSOL LR; TYLOSE MHB; NATROSOL 250HHP; HERCULES N 100; CELLOSIZE WP 300; TYLOSE P-Z SERIES; NATROSOL 250H; TYLOSE PS-X; Cellobond HEC 400; CELLOSIZE QP; CELLOSIZE QP 1500; NATRO-SOL 250; HYDROXYETHYL CELLULOSE ETHER; HESPAN; TYLOSE MHB-Y; NATROSOL 240JR; HYDROXYETHYL STARCH; CELLOSIZE WP; CELLOSIZE WP 300H; 2-HYDROXYETHYL CELLULOSE ETHER; BL 15; CELLOSIZE QP 4400; CELLOSIZE QP3; TYLOSE MB;CELLULOSE HYDROXY-ETHYLATE; CELLOSIZE WPO 9H17; CELLOSIZE 4400H16; CELLULOSE HYDROXYETHYL ETHER; Hydroxyethyl Cellulose ();Hydroxyl Ethyl Cellulose(HEC); Hydroxyethyl Cellulose 100H (celocell 100h); TYLOSE MH-XP; NATROSOL 250HX; Natrosol; Daicel EP 500;HEC-Unicel; HEC (Hydroxyethyl cellulose); Cellosize; HEC-Al 5000; Fuji HEC-AL 15; HEC-Unicel QP 09L; also Cellulose, ethers, 2-hydroxyethyl ether; Unicel QP 52000H; HEC-QP 4400;SP 250 (cellulose);Hetastarch; Cellulose, ethers, 2-hydroxyethyl ether; Glutofix 600; FL 52; Fuji HEC-AX 15F; Tylose H 300P; HEC-Unicel QP 300H;Tylose H 300;Daicel SP 550; Daicel SE 600;Unicel QP 15000;HEC-QP 100MH; HEC-QP 9H; OETs; Daicel EP 850; H. E. Cellulose; Cellobond 25T; Unicel QP 100MH; Tylose H 4000; polymer with oxirane ;; see;SE 850K; Tylomer H 20; Daicel SE 850K; Tylose H 30000YP; Unicel QP 4400; SP 407; Tylose H 100000; Daicel SP 200; Culminal HEC 5000PR; Tylopur H 300; Daicel SP 750;Sanhec; BL 15 (cellulose derivative); Unicel QP 300H; Tylomer H 200; J 164; Tylose H 10; Tylose H 20; AH 15; Daicel SP 600; Daicel SE 900; HEC-Unicel QP 4400H; AX 15; Daicel SP 800; Fuji HEC-AW 15F; HEC-SE 850; HEC-A 5-25CF; Metolose 90SEW;AW 15 (polysaccharide); Cellobond HEC 5000; HEC-QP 100M; Cellobond HEC 15A; Tylose H 15000YP2; Walocel HT 6.000PFV; 2-Hydroxyethyl cellulose (Natrosol Type 250HRCS); Fuji HEC-BL 20;Fuji HEC-SY 25F; Telhec;HEC-SP 200;HEC-AH 15;HEC-Unicel QP 30000H;polymer with cellulose ;; see;HEC 10A; Daicel SP 400; Admiral 3089FS; Fuji HEC-A 5000F; HEC-SP 400; Hydroxyethyl Methyl Cellulose(HEMC); HYDROXYETHYL CELLULOSE (HEC); Hydroxyethyl Starch (CAS No:9004-62-0); Hydroxy Ethyl Cellulose;"Natrosol" [Aqualon]; HEC; 2-HYDROXYETHYL CELLULOSE; NATROSOL 150L; TYLOSE MHB-YP; HYDROXYETHYL ETHER CELLULOSE; NATROSOL 250L; CELLOSIZE WP 400H; TYLOSE P; CELLULOSE, 2-HYDROXYETHYL ETHER; TYLOSE MH-K; NATROSOL 250HHR; TYLOSE HS 100000 YP2; TYLOSE HS 100 000 YP2; TYLOSEHS100000YP2; tylose 100 000 yp2; tylose 100000 yp2; Cellosize, Natrosol, Culminal, Walocel, Mecellose, Synonyms: Tylose ; TYLOSE ; tylose ; H ;hs ; Hs ; 15000 ; Yüzbin ; 100bin ; YP2 ; YP ;yp ; Yp ; 2 ; Tylose H 15000 YP2 ; TYLOSE H 15000 YP 2 ; tylosehs 15000 yp 2 ; TYLOSEH 15000YP2 ; TYLOSEH 15000 YP2 ; TYLOSEH15000YP2 ; tylose h100000yp2 ; Tylose H15000YP2 diethanol disulfide, diethanol disulphide, bis(2-hydroxyethanol)disulfide ; 2-Hydroxyethyl cellulose ; Tris(2-hydroxyethyl)amine (triethanolamine) n-(2-hydroxyethyl)-N`-2-propenyl thiourea 1-(2-hydroxyethyl)-2-(heptadecenyl)imidazoline 1-(2-hydroxyethyl)-2-pyrrolidinone 1,3,5-tris(2-hydroxyethyl)triazine-2,4,6-trione Carboxymethyl cellulose Cellulose Cellulose acetate Ethyl cellulose ; Fuji HEC-HP;Fuji HEC-AG 15; NATRO-SOL 250HR; NATROSOL 250MH; NATROSOL 250G; CELLOSIZE QP 30000; TYLOSE H SERIES; NATROSOL 180L; NATROSOL 300H ; TYLOSE P-X; NATROSOL 250M; CELLOSIZE WP 4400; CELLOSIZE UT 40; NATROSOL 250H4R; Tylose H 20P; NATROSOL LR; TYLOSE MHB; NATROSOL 250HHP; HERCULES N 100; CELLOSIZE WP 300; TYLOSE P-Z SERIES; NATROSOL 250H; TYLOSE PS-X; Cellobond HEC 400; CELLOSIZE QP; CELLOSIZE QP 1500; NATRO-SOL 250; HYDROXYETHYL CELLULOSE ETHER; HESPAN; TYLOSE MHB-Y; NATROSOL 240JR; HYDROXYETHYL STARCH; CELLOSIZE WP; CELLOSIZE WP 300H; 2-HYDROXYETHYL CELLULOSE ETHER; BL 15; CELLOSIZE QP 4400; CELLOSIZE QP3; TYLOSE MB;CELLULOSE HYDROXY-ETHYLATE; CELLOSIZE WPO 9H17; CELLOSIZE 4400H16; CELLULOSE HYDROXYETHYL ETHER; Hydroxyethyl Cellulose ();Hydroxyl Ethyl Cellulose(HEC); Hydroxyethyl Cellulose 100H (celocell 100h); TYLOSE MH-XP; NATROSOL 250HX; Natrosol; Daicel EP 500;HEC-Unicel; HEC (Hydroxyethyl cellulose); Cellosize; HEC-Al 5000; Fuji HEC-AL 15; HEC-Unicel QP 09L; also Cellulose, ethers, 2-hydroxyethyl ether; Unicel QP 52000H; HEC-QP 4400;SP 250 (cellulose);Hetastarch; Cellulose, ethers, 2-hydroxyethyl ether; Glutofix 600; FL 52; Fuji HEC-AX 15F; Tylose H 300P; HEC-Unicel QP 300H;Tylose H 300;Daicel SP 550; Daicel SE 600;Unicel QP 15000;HEC-QP 100MH; HEC-QP 9H; OETs; Daicel EP 850; H. E. Cellulose; Cellobond 25T; Unicel QP 100MH; Tylose H 4000; polymer with oxirane ;; see;SE 850K; Tylomer H 20; Daicel SE 850K; Tylose H 30000YP; Unicel QP 4400; SP 407; Tylose H 100000; Daicel SP 200; Culminal HEC 5000PR; Tylopur H 300; Daicel SP 750;Sanhec; BL 15 (cellulose derivative); Unicel QP 300H; Tylomer H 200; J 164; Tylose H 10; Tylose H 20; AH 15; Daicel SP 600; Daicel SE 900; HEC-Unicel QP 4400H; AX 15; Daicel SP 800; Fuji HEC-AW 15F; HEC-SE 850; HEC-A 5-25CF; Metolose 90SEW;AW 15 (polysaccharide); Cellobond HEC 5000; HEC-QP 100M; Cellobond HEC 15A; Tylose H 15000YP2; Walocel HT 6.000PFV; 2-Hydroxyethyl cellulose (Natrosol Type 250HRCS); Fuji HEC-BL 20;Fuji HEC-SY 25F; Telhec;HEC-SP 200;HEC-AH 15;HEC-Unicel QP 30000H;polymer with cellulose ;; see;HEC 10A; Daicel SP 400; Admiral 3089FS; Fuji HEC-A 5000F; HEC-SP 400; Hydroxyethyl Methyl Cellulose(HEMC); HYDROXYETHYL CELLULOSE (HEC); Hydroxyethyl Starch (CAS No:9004-62-0); Hydroxy Ethyl Cellulose;"Natrosol" [Aqualon]; HEC; 2-HYDROXYETHYL CELLULOSE; NATROSOL 150L; TYLOSE MHB-YP; HYDROXYETHYL ETHER CELLULOSE; NATROSOL 250L; CELLOSIZE WP 400H; TYLOSE P; CELLULOSE, 2-HYDROXYETHYL ETHER; TYLOSE MH-K; NATROSOL 250HHR; Tylose H 300 P2; Tylose H 300P2; TyloseH300 P2; TyloseH300P2; TYLOSE H 300 P2; Tylose h 300 p2; Tylose H 300 P2; Tylose H 300; Tylose 300 P2; Tylose 300; tylose; TYLOSEH 300 P2; TYLOSE H 300 P2; TYLOSE H-300 P2; TYLOSE H 300-P2; TYLOSE-H-300 P2; TYLOSE H300P2

 

 

 


Tylose H 300 P2
Propriétés du Tylose H 300 P2
Constitution:
Hydroxyéthylcellulose
Aspect de Tylose H 300 P2:
poudre
Ethérification de Tylose H 300 P2:
la norme
Taille des particules de Tylose H 300 P2:
poudre
Solubilité retardée du Tylose H 300 P2:
Oui
Niveau de viscosité du Tylose H 300 P2:
selon Höppler
300 mPa • s
Tylose H 300 P2 - Hydroxyéthylcellulose non ionique soluble dans l'eau avec éthérification standard

 

 

Performances d'application du Tylose H 300 P2
Matériaux de construction
Développement de cohérence de Tylose H 300 P2:
modéré
Consistance finale du Tylose H 300 P2:
très lent
Résistance à l'affaissement du Tylose H 300 P2:
très lent
Demande en eau du Tylose H 300 P2:
très lent
Rétention d'eau du Tylose H 300 P2:
faible
Influence sur l'hydratation du ciment de Tylose H 300 P2:
haute
Stabilité thermique du Tylose H 300 P2:
très haut
L'industrie du forage
Épaississement de Tylose H 300 P2:
faible
Stabilité thermique du Tylose H 300 P2:
haute
Compatibilité du sel de Tylose H 300 P2:
bien
Retardement au ciment de Tylose H 300 P2:
faible
Domaines d'application recommandés
Matériaux de construction
Composés de sol autolissants
L'industrie du forage
Cimentation de forage
Autres applications
Des crayons

 

 


Emballage, stockage, consignes de sécurité Emballage, stockage, consignes de sécurité du Tylose H 300 P2:
Comme toutes les substances organiques à particules fines, les éthers de cellulose constituent un risque d'explosion de poussières. Formation de poussière
et les dépôts doivent être réduits au minimum afin qu'aucun mélange inflammable poussière / air ne puisse se former. Sources d'inflammation telles
car les flammes nues, les surfaces chaudes, les étincelles et l'électricité statique doivent être évitées. Le Tylose H 300 P2 commence à se décomposer à
environ 200 ° C. La température d'inflammation du Tylose H 300 P2 est> 360 ° C. Le Tylose H 300 P2 brûle facilement et le feu peut se propager.
Lorsqu'il est stocké dans des récipients fermés ou dans l'emballage d'origine du Tylose H 300 P2 dans un endroit sec à température ambiante, le Tylose H 300 P2 peut
être conservé longtemps. Dans le cas de grades à viscosité élevée, une perte de viscosité lente peut être mesurée après
stockage long (> 1 an). Le Tylose H 300 P2 absorbe l'eau de l'air humide. Une fois ouvert, le contenant doit être refermé et
bien fermé.
Tylose H 300 P2 est fourni dans des sacs en papier multicouches avec une couche intermédiaire en polyéthylène et / ou dans des big bags

 

 

Tylose H 300 P2 - Hydroxyéthylcellulose non ionique soluble dans l'eau avec éthérification standard.
Hydroxyéthylcellulose. Agit comme liant et agent épaississant. Il est disponible sous forme granulaire avec une solubilité non retardée. Utilisé dans les colorations capillaires, les soins solaires, le déo roll-on, le mascara et le maquillage (liquide).

 

 

Propriétés du produit de Tylose H 300 P2
Constitution de Tylose H 300 P2 :: Hydroxyéthylcellulose
Aspect de Tylose H 300 P2: poudre
Ethérification de Tylose H 300 P2: standard
Taille des particules de Tylose H 300 P2: poudre
Solubilité retardée du Tylose H 300 P2: oui
Niveau de viscosité du Tylose H 300 P2:
selon Höppler 300 mPa • s
Tylose® H grades - Hydroxyéthylcellulose hydrosoluble, non ionique avec éthérification standard

 

 

Tylose H 300 P2 produit des silicones et des produits en silicone pour l'industrie des peintures et des revêtements. Ils fournissent des composés de silicone de premier ordre pour développer et augmenter la fiabilité et les performances globales d'un produit. Un tel type de produit, les agents de couplage silane, est utilisé comme médiateur qui aide à améliorer et à soutenir les liaisons entre les matériaux inorganiques et organiques. Cela permet une modification de surface et une modification de résine. Le Tylose HS 100000 YP2 contribue également à l'augmentation de l'adhérence et à l'amélioration de la durabilité mécanique des matériaux composites.
Propriétés du produit
Constitution: Hydroxyéthylcellulose
Aspect: poudre
Ethérification: élevée
Taille des particules: poudre
Solubilité retardée: oui
Niveau de viscosité:
selon Höppler 100000 mPa • s
Grades Tylose® HS - Hydroxyéthylcellulose non ionique soluble dans l'eau avec une biostabilité accrue

 

 

 
Performances d'application du Tylose H 300 P2
Matériaux de revêtement
Biostabilité: oui
Brillant: élevé
Compatibilité pigmentaire: élevée
Anti-éclaboussures: défavorable
Pseudoplasticité: élevée
Effet épaississant: très élevé
Résistance au frottement humide: élevée
Rétention d'eau: modérée
Soins personnels et à domicile
Effet épaississant: très élevé
Pureté supérieure: non
Clarté de la solution: élevée
Stabilisation de la mousse: modérée
Pseudoplasticité: élevée
Compatibilité avec les sels: élevée
Compatibilité avec les tensioactifs: élevée
Performances des applications
Matériaux de construction
Développement de la cohérence: modéré
Consistance finale: très faible
Résistance à l'affaissement: très faible
Demande en eau: très faible
Rétention d'eau: faible
Influence sur l'hydratation du ciment: élevée
Stabilité thermique: très élevée
L'industrie du forage
Épaississement: faible
Stabilité thermique: élevée
Compatibilité du sel: bonne
Retard de ciment: faible

 

 

Niveau de viscosité: 300 mPa.s
Tylose H 300 P2 - Hydroxyéthylcellulose non ionique soluble dans l'eau avec éthérification standard. Les applications principales sont les composés de sol autonivelants, le cimentage de trous de forage et les crayons.

 

 

Tylose H 300 P2

 

Tylose H 300 P2 properties
Constitution:
Hydroxyethyl cellulose
Appearance of Tylose H 300 P2:
powder
Etherification of Tylose H 300 P2:
standard
Particle size of Tylose H 300 P2:
powder
Delayed solubility of Tylose H 300 P2:
yes
Level of viscosity of Tylose H 300 P2:
according to Höppler
300 mPa•s
Tylose H 300 P2 - water soluble, non-ionic, hydroxyethyl cellulose with standard etherification

 

 

Application performance of Tylose H 300 P2
Building materials
Consistency development of Tylose H 300 P2:
moderate
Final consistency of Tylose H 300 P2:
very low
Sag resistance of Tylose H 300 P2:
very low
Water demand of Tylose H 300 P2:
very low
Water retention of Tylose H 300 P2:
low
Influence on cement hydration of Tylose H 300 P2:
high
Heat stability of Tylose H 300 P2:
very high
Drilling industry
Thickening of Tylose H 300 P2:
low
Thermal stability of Tylose H 300 P2:
high
Salt compability of Tylose H 300 P2:
good
Cement retardation of Tylose H 300 P2:
low
Recommended fields of application
Building materials
Self levelling floor compounds
Drilling industry
Borehole cementing
Further applications
Pencils

 

 


Packaging, Storage, Safety instructions Packaging, Storage, Safety instructions of Tylose H 300 P2:
Like all fine-particle organic substances, cellulose ethers constitute a dust explosion hazard. Dust formation
and deposits must be kept to a minimum so that no ignitable dust/air mixtures can form. Ignition sources such
as naked flames, hot surfaces, sparks and static electricity should be avoided. Tylose H 300 P2 starts to decompose at
about 200°C. Tylose H 300 P2's ignition temperature is >360°C. Tylose H 300 P2 burns easily and the fire may spread.
When stored in closed containers, or in Tylose H 300 P2's original packaging in a dry place at room temperature, Tylose H 300 P2 can
be kept for a long time. In the case of high viscosity grades, a slow loss of viscosity can be measured after
lengthy storage (>1 year). Tylose H 300 P2 absorbs water from moist air. Once opened, container must be resealed and
kept tightly closed.
Tylose H 300 P2 is supplied in multi-ply paper bags with polyethylene intermediate layer and/or in big bags

 

 

Tylose H 300 P2 - water soluble, non-ionic, hydroxyethyl cellulose with standard etherification.
Hydroxyethylcellulose. Acts as a binder and thickening agent. It is available in granular form with non-delayed solubility. Used in hair colors, sun care, roll-on deo, mascara and make-up (liquid).

 

 

Product properties of Tylose H 300 P2
Constitution of Tylose H 300 P2:: Hydroxyethyl cellulose
Appearance of Tylose H 300 P2: powder
Etherification of Tylose H 300 P2: standard
Particle size of Tylose H 300 P2: powder
Delayed solubility of Tylose H 300 P2: yes
Level of viscosity of Tylose H 300 P2:
according to Höppler 300 mPa•s
Tylose® H grades - water soluble, non-ionic, hydroxyethyl cellulose with standard etherification

 

 

Tylose H 300 P2 produces silicones and silicone products for the Paints and Coating Industry. They provide first rate silicone compounds to develop and increase the reliability and all around performance of a product. One such product type, Silane Coupling Agents, are used as a mediator that helps improve and support bonds between inorganic and organic materials. This allows for surface modification and resin modification to take place. Tylose HS 100000 YP2 also aids in the increased adhesion and the enhancement of the mechanical durability of composite materials.
Product properties 
Constitution:Hydroxyethyl cellulose
Appearance:powder
Etherification:high
Particle size:powder
Delayed solubility:yes
Level of viscosity:
according to Höppler 100000 mPa•s
Tylose® HS grades - water soluble, non-ionic, hydroxyethyl cellulose with increased biostability

 

 


Application performance of Tylose H 300 P2
Coating materials 
Biostability:yes
Gloss:high
Pigment Compatibility:high
Anti-spattering:unfavourable
Pseudoplasticity:high
Thickening effect:very high
Wet scrub resistance:high
Water retention:moderate
Personal and home care 
Thickening effect:very high
Higher purity:no
Clarity of the solution:high
Stabilization of foam:moderate
Pseudoplasticity:high
Compatibility with salts:high
Compatibility with surfactants:high
Application performance 
Building materials 
Consistency development: moderate
Final consistency: very low
Sag resistance: very low
Water demand: very low
Water retention: low
Influence on cement hydration: high
Heat stability: very high
Drilling industry 
Thickening: low
Thermal stability: high
Salt compability: good
Cement retardation: low

 

 

Level of viscosity: 300 mPa.s
Tylose H 300 P2 - water soluble, non-ionic, hydroxyethyl cellulose with standard etherification. Main applications are Self levelling floor compounds, Borehole cementing and Pencils.

 

 

 

 

Tylose H 300 P2
Tylose H 300 P2 özellikleri
Anayasa:
Hidroksietil selüloz
Tylose H 300 P2'nin görünümü:
pudra
Tylose H 300 P2'nin eterleştirilmesi:
standart
Tylose H 300 P2'nin parçacık boyutu:
pudra
Tylose H 300 P2'nin gecikmiş çözünürlüğü:
Evet
Tylose H 300 P2'nin viskozite seviyesi:
Höppler'e göre
300 mPa • s
Tylose H 300 P2 - standart eterifikasyona sahip suda çözünür, noniyonik, hidroksietil selüloz

 

 

Tylose H 300 P2 uygulama performansı
Yapı malzemeleri
Tylose H 300 P2'nin tutarlı gelişimi:
orta
Tylose H 300 P2'nin nihai kıvamı:
Çok düşük
Tylose H 300 P2'nin sarkma direnci:
Çok düşük
Tylose H 300 P2'nin su ihtiyacı:
Çok düşük
Tylose H 300 P2'nin su tutma:
düşük
H 300 P2 Tylose'un çimento hidrasyonuna etkisi:
yüksek
Tylose H 300 P2'nin ısı stabilitesi:
çok yüksek
Sondaj endüstrisi
Tylose H 300 P2'nin kalınlaşması:
düşük
Tylose H 300 P2'nin termal kararlılığı:
yüksek
Tylose H 300 P2'nin tuz uyumluluğu:
iyi
Tylose H 300 P2'nin çimento geciktirmesi:
düşük
Önerilen uygulama alanları
Yapı malzemeleri
Kendiliğinden yayılan zemin bileşikleri
Sondaj endüstrisi
Sondaj çimentolama
Diğer uygulamalar
Kalemler

 

 


Ambalaj, Saklama, Güvenlik talimatları Ambalaj, Saklama, Tylose H 300 P2 güvenlik talimatları:
Tüm ince parçacıklı organik maddeler gibi selüloz eterler de toz patlaması tehlikesi oluşturur. Toz oluşumu
hiçbir tortu / hava karışımı oluşmaması için tortular minimumda tutulmalıdır. Ateşleme kaynakları
çıplak alev, sıcak yüzey, kıvılcım ve statik elektrikten kaçınılmalıdır. Tylose H 300 P2 ayrışmaya başlar
yaklaşık 200 ° C. Tylose H 300 P2'nin tutuşma sıcaklığı> 360 ° C'dir. Tylose H 300 P2 kolayca yanar ve yangın çıkabilir.
Kapalı kaplarda veya Tylose H 300 P2'nin orijinal ambalajında ??oda sıcaklığında kuru bir yerde saklandığında, Tylose H 300 P2
uzun süre saklanmalıdır. Yüksek viskozite dereceleri durumunda, yavaş bir viskozite kaybı
uzun süreli depolama (> 1 yıl). Tylose H 300 P2 suyu nemli havadan emer. Açıldıktan sonra kap kapatılmalı ve
sıkıca kapalı tutulur.
Tylose H 300 P2, polietilen ara tabakalı çok katlı kağıt torbalarda ve / veya büyük torbalarda tedarik edilir

 

 

Tylose H 300 P2 - standart eterifikasyona sahip suda çözünür, noniyonik, hidroksietil selüloz.
Hydroxyethylcellulose. Bağlayıcı ve kıvam arttırıcı olarak işlev görür. Gecikmesiz çözünürlüğü olan granül formda mevcuttur. Saç renklerinde, güneş bakımında, roll-on deoda, rimelde ve makyajda (sıvı) kullanılır.

 

 

Tylose H 300 P2'nin ürün özellikleri
Tylose H 300 P2'nin Yapısı :: Hidroksietil selüloz
Tylose H 300 P2'nin görünümü: toz
Tylose H 300 P2'nin eterleştirilmesi: standart
Tylose H 300 P2'nin parçacık boyutu: toz
Tylose H 300 P2'nin gecikmiş çözünürlüğü: evet
Tylose H 300 P2'nin viskozite seviyesi:
Höppler 300 mPa • s uyarınca
Tylose® H kaliteleri - suda çözünür, iyonik olmayan, hidroksietil selüloz ve standart eterifikasyon

 

 

Tylose H 300 P2, Boyalar ve Kaplama Endüstrisi için silikonlar ve silikon ürünler üretir. Bir ürünün güvenilirliğini ve performansını arttırmak için birinci sınıf silikon bileşikleri sağlarlar. Böyle bir ürün tipi olan Silan Bağlayıcı Ajanlar, inorganik ve organik maddeler arasındaki bağların iyileştirilmesine ve desteklenmesine yardımcı olan bir aracı olarak kullanılır. Bu, yüzey modifikasyonunun ve reçine modifikasyonunun gerçekleşmesini sağlar. Tylose HS 100000 YP2 ayrıca kompozit malzemelerin artan yapışma ve mekanik dayanıklılığının arttırılmasına yardımcı olur.
Ürün özellikleri
Anayasa: Hidroksietil selüloz
Görünüm: toz
Eterifikasyonun: Yüksek
Partikül boyutu: toz
Gecikmiş çözünürlük: evet
Viskozite seviyesi:
Höppler 100000 mPa • s uyarınca
Tylose® HS kaliteleri - suda çözünür, iyonik olmayan, hidroksietil selüloz

 

 

 
Tylose H 300 P2 uygulama performansı
Kaplama malzemeleri
Biyo: evet
Parlak: Yüksek
Pigment Uyumluluğu: yüksek
Anti-sıçrama: elverişsiz
Pseudoplastisite: Yüksek
Kalınlaşma etkisi: çok yüksek
Islak ovma direnci: yüksek
Su tutma: orta
Kişisel ve evde bakım
Kalınlaşma etkisi: çok yüksek
Daha yüksek saflık: hayır
Çözümün netliği: yüksek
Köpüğün stabilizasyonu: orta
Pseudoplastisite: Yüksek
Tuzlarla uyumluluk: yüksek
Sürfaktanlarla uyumluluk: yüksek
Uygulama performansı
Yapı malzemeleri
Tutarlılık gelişimi: ılımlı
Son tutarlılık: çok düşük
Sarkma direnci: çok düşük
Su talebi: çok düşük
Su tutma: düşük
Çimento hidrasyonuna etkisi: yüksek
Isı stabilitesi: çok yüksek
Sondaj endüstrisi
Kalınlaşma: düşük
Termal kararlılık: yüksek
Tuz uyumluluğu: iyi
Çimento geriliği: düşük

 

 

Viskozite seviyesi: 300 mPa.s
Tylose H 300 P2 - standart eterifikasyona sahip suda çözünür, noniyonik, hidroksietil selüloz. Başlıca uygulamalar Kendiliğinden yayılan zemin bileşikleri, Kuyu çimentolama ve Kalemlerdir.

 

 

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