{"title":"用纤维素纤维稳定红土的试验","authors":"Ab Bakam, M. K. Ndikontar, I. Njilah","doi":"10.4314/AJST.V5I1.15315","DOIUrl":null,"url":null,"abstract":"RESUME :- Afin de valoriser les matieres premieres locales, des blocs de laterite comprimee ont ete stabilises par des fibres cellulosiques provenant du Cyperus papyrus (cyperus), fibres longues et du Manihot esculenta (manioc), fibres courtes. Ainsi, la plus grande valeur de la resistance a la flexion statique a sec, 2,5 MPa, a ete obtenue avec des blocs de laterite comprimee stabilises a 5% de fibres longues. A cette meme teneur, les blocs de laterite contenant les fibres courtes donnent une resistance inferieure, soit 1,69 MPa. De facon inattendue, a 10% de fibres courtes, la resistance a la flexion a sec des briques (2,47 MPa) est superieure a celle des briques a fibres longues a teneur egale (2,08 MPa). La resistance a la flexion humide de tous ces blocs apparait nulle avec, cependant une conservation du reseau des blocs de laterite contenant les fibres cellulosiques du cyperus et du manioc a des teneurs superieures ou egales a 5%. Les briques absorbent l'eau de remontee capillaire en fonction de leur teneur en fibres cellulosiques et de la nature de ces dernieres. Pour les briques non stabilisees, le pourcentage d'eau absorbee est de 9,5%. A 7,5% de fibres longues, il n'est plus que 6,0%, alors qu'a 10% de fibres longues, il monte a 15,3% pendant que celui des fibres courtes atteint la valeur de 16,2% au bout d'une periode de 22 heures. \nMot cles: laterite, briques stabilisees, fibres cellulosiques, resistance a la flexion, absorption par capillarite. ABSTRACT :- In order to give added value to local raw materials, compressed laterite bricks have been stabilised with cellulose fibres of Cyperus papyrus (cyperus), long fibres and Manihot esculenta (cassava), short fibres. The highest value of the dry flexural resistance, 2.53 MPa, was obtained with blocks stabilised at 5% long fibres content. At the same content the blocks of laterite containing short fibres gave a dry flexural resistance of 2.47 MPa which is higher than the value of 2.08 MPa for long fibres. The wet flexural resistance of all blocks is zero. But it can be noted that bricks containing cellulose fibres of cyperus and cassava at percentages higher or equal to 5% conserve their shape during complete immersion. The bricks absorbed water by capillarity depending on the nature and the percentage content of cellulose fibres. After a period of 22 hours, bricks containing 7.5% long fibres absorbed 6.0% water, less than 9.5% for unstabilised bricks; while at 10% of long fibres, absorption increased to 15.3%. In the same period, with 10% short fibres, the percentage water absorbed rose to 16.2%, indicating the better performance of the longer fibres. Key words : laterite, stabilised bricks, cellulose fibres, flexural resistance, absorption by capillarity. African Journal of Science and Technology Vol.5(1) 2004: 22-28","PeriodicalId":7641,"journal":{"name":"African Journal of Science and Technology","volume":"106 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2005-02-11","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":"{\"title\":\"ESSAIS DE STABILISATION DE LA LATERITE AVEC LES FIBRES CELLULOSIQUES\",\"authors\":\"Ab Bakam, M. K. Ndikontar, I. Njilah\",\"doi\":\"10.4314/AJST.V5I1.15315\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"RESUME :- Afin de valoriser les matieres premieres locales, des blocs de laterite comprimee ont ete stabilises par des fibres cellulosiques provenant du Cyperus papyrus (cyperus), fibres longues et du Manihot esculenta (manioc), fibres courtes. Ainsi, la plus grande valeur de la resistance a la flexion statique a sec, 2,5 MPa, a ete obtenue avec des blocs de laterite comprimee stabilises a 5% de fibres longues. A cette meme teneur, les blocs de laterite contenant les fibres courtes donnent une resistance inferieure, soit 1,69 MPa. De facon inattendue, a 10% de fibres courtes, la resistance a la flexion a sec des briques (2,47 MPa) est superieure a celle des briques a fibres longues a teneur egale (2,08 MPa). La resistance a la flexion humide de tous ces blocs apparait nulle avec, cependant une conservation du reseau des blocs de laterite contenant les fibres cellulosiques du cyperus et du manioc a des teneurs superieures ou egales a 5%. Les briques absorbent l'eau de remontee capillaire en fonction de leur teneur en fibres cellulosiques et de la nature de ces dernieres. Pour les briques non stabilisees, le pourcentage d'eau absorbee est de 9,5%. A 7,5% de fibres longues, il n'est plus que 6,0%, alors qu'a 10% de fibres longues, il monte a 15,3% pendant que celui des fibres courtes atteint la valeur de 16,2% au bout d'une periode de 22 heures. \\nMot cles: laterite, briques stabilisees, fibres cellulosiques, resistance a la flexion, absorption par capillarite. ABSTRACT :- In order to give added value to local raw materials, compressed laterite bricks have been stabilised with cellulose fibres of Cyperus papyrus (cyperus), long fibres and Manihot esculenta (cassava), short fibres. The highest value of the dry flexural resistance, 2.53 MPa, was obtained with blocks stabilised at 5% long fibres content. At the same content the blocks of laterite containing short fibres gave a dry flexural resistance of 2.47 MPa which is higher than the value of 2.08 MPa for long fibres. The wet flexural resistance of all blocks is zero. But it can be noted that bricks containing cellulose fibres of cyperus and cassava at percentages higher or equal to 5% conserve their shape during complete immersion. The bricks absorbed water by capillarity depending on the nature and the percentage content of cellulose fibres. After a period of 22 hours, bricks containing 7.5% long fibres absorbed 6.0% water, less than 9.5% for unstabilised bricks; while at 10% of long fibres, absorption increased to 15.3%. In the same period, with 10% short fibres, the percentage water absorbed rose to 16.2%, indicating the better performance of the longer fibres. Key words : laterite, stabilised bricks, cellulose fibres, flexural resistance, absorption by capillarity. African Journal of Science and Technology Vol.5(1) 2004: 22-28\",\"PeriodicalId\":7641,\"journal\":{\"name\":\"African Journal of Science and Technology\",\"volume\":\"106 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2005-02-11\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"4\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"African Journal of Science and Technology\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.4314/AJST.V5I1.15315\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"African Journal of Science and Technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.4314/AJST.V5I1.15315","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
ESSAIS DE STABILISATION DE LA LATERITE AVEC LES FIBRES CELLULOSIQUES
RESUME :- Afin de valoriser les matieres premieres locales, des blocs de laterite comprimee ont ete stabilises par des fibres cellulosiques provenant du Cyperus papyrus (cyperus), fibres longues et du Manihot esculenta (manioc), fibres courtes. Ainsi, la plus grande valeur de la resistance a la flexion statique a sec, 2,5 MPa, a ete obtenue avec des blocs de laterite comprimee stabilises a 5% de fibres longues. A cette meme teneur, les blocs de laterite contenant les fibres courtes donnent une resistance inferieure, soit 1,69 MPa. De facon inattendue, a 10% de fibres courtes, la resistance a la flexion a sec des briques (2,47 MPa) est superieure a celle des briques a fibres longues a teneur egale (2,08 MPa). La resistance a la flexion humide de tous ces blocs apparait nulle avec, cependant une conservation du reseau des blocs de laterite contenant les fibres cellulosiques du cyperus et du manioc a des teneurs superieures ou egales a 5%. Les briques absorbent l'eau de remontee capillaire en fonction de leur teneur en fibres cellulosiques et de la nature de ces dernieres. Pour les briques non stabilisees, le pourcentage d'eau absorbee est de 9,5%. A 7,5% de fibres longues, il n'est plus que 6,0%, alors qu'a 10% de fibres longues, il monte a 15,3% pendant que celui des fibres courtes atteint la valeur de 16,2% au bout d'une periode de 22 heures.
Mot cles: laterite, briques stabilisees, fibres cellulosiques, resistance a la flexion, absorption par capillarite. ABSTRACT :- In order to give added value to local raw materials, compressed laterite bricks have been stabilised with cellulose fibres of Cyperus papyrus (cyperus), long fibres and Manihot esculenta (cassava), short fibres. The highest value of the dry flexural resistance, 2.53 MPa, was obtained with blocks stabilised at 5% long fibres content. At the same content the blocks of laterite containing short fibres gave a dry flexural resistance of 2.47 MPa which is higher than the value of 2.08 MPa for long fibres. The wet flexural resistance of all blocks is zero. But it can be noted that bricks containing cellulose fibres of cyperus and cassava at percentages higher or equal to 5% conserve their shape during complete immersion. The bricks absorbed water by capillarity depending on the nature and the percentage content of cellulose fibres. After a period of 22 hours, bricks containing 7.5% long fibres absorbed 6.0% water, less than 9.5% for unstabilised bricks; while at 10% of long fibres, absorption increased to 15.3%. In the same period, with 10% short fibres, the percentage water absorbed rose to 16.2%, indicating the better performance of the longer fibres. Key words : laterite, stabilised bricks, cellulose fibres, flexural resistance, absorption by capillarity. African Journal of Science and Technology Vol.5(1) 2004: 22-28
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