A STUDY of gypsum raw materials FOR COMPOSITE BINDER PRODUCTION

The article presents the results of the overall utilization of gypsum raw materials to obtain dry building mixes. It is shown that waste gypsum is a crystallization seeding for anhydrite binders that improves strength properties of the samples and reduces their setting period. A complex utilization of waste gypsum assists in solving ecological problems and reducing the cost of anhydrite finishing materials due to the absence of sulfate chemical additives.

фторангидрит нейтрализованный, фторангидрит отвальный, рентгенограмма, термограмма, микронаполнитель, сухие строительные смеси, отделочные материалы, neutralized gypsum, waste gypsum, XRD histogram, thermal gravimetric analysis, micro filling material, dry building mixes, finishing materials

1. Ponomarenko A.A., Ponomarenko A.A., Kapustin F.L. Tehnologija pererabotki ftorangidrita dlja ispol'zovanija v proizvodstve portlandcementa. [Gypsum processing technology for Portland cement production]. Himicheskaja tehnologija. 2011. No. 6. Pp. 323–325. (rus)

2. Kudyakov A.I., Anikanova L.A, Redlikh V.V., Sarkisov Yu.S. Vliyanie sul'fata i sul'fita natriya na protsessy strukturoobrazovaniya ftorangidritovykh kompozitsii. [The effect of sulfate and sodium sulfite on structural formation of gypsum compositions]. Construction Materials. 2012. No. 10. Pp. 50–53. (rus)

3. Bondarenko S.A., Trofimov B.Ya., Chernykh T.N., Kramar L.Ya. Ispol'zovanie ftorangidrita v proizvodstve pazogrebnevykh peregorodok [Gypsum application in partition block production]. Construction Materials. 2008. No. 3. Pp. 68–69. (rus)

4. Anikanova L.A., Kudyakov A.I., Nikitina O.V., Mitrokhina E.V. The influence of polymersilicate liquid on water resistance of composite binders of acid fluorides. 2. Weimarer gipstagung, Weimar, Bundesrepublik Deutschland: Tagungsbericht, 2014. Pp. 183–190.

5. Lesovik V.S., Chernyshova N.V., Klimenko V.G. Protsessy strukturoobrazovaniya gipsosoderzhashchikh kompozitov s uchetom genezisa syr'ya. [Structure formation of gypsumbased composites and raw material genesis]. News of Higher Educational Institutions. Construction. 2012. No. 4. Pp. 3–11. (rus)

6. Fedorchuk Yu.M. Tekhnogennyi angidrit, ego svoistva, primenenie. [Industrial anhydrite, its properties, application]. TPU Publ., 2005. 110 p. (rus)

7. Ferronskaja A.V. Dolgovechnost' gipsovyh materialov, izdelij i konstrukcij [Durability of gypsum materials, products and structures]. Moscow: Stroyizdat. 1984. 254 p. (rus)

8. Belov V.V., Bur'janov A.F., Jakovlev G.I., Petropavlovskaja V.B., Fisher H.-B., Maeva I.S., Novichenkova T.B. Modifikacija struktury i svojstv stroitel'nyh kompozitov na osnove sul'fata kal'cija. [Modification of structure and properties of construction composites based on calcium sulfate]. Moscow : De Nova Publ., 2012. 196 p. (rus)

9. Anikanova L.A., Kudjakov A.I., Nikitina O.V. Kompozicionnye vjazhushhie veshhestva dlja suhih stroitel'nyh smesej [Composite binders for dry building mixes]. Resursosberegajushhie tehnologii i jeffektivnoe ispol'zovanie mestnyh resursov v stroitel'stve: Mezhdunarodnyj sbornik nauchnyh trudov. Novosibirsk, 2013. Pp. 258–260. (rus)

10. Petropavlovskaja V.B., Bur'janov A.F., Novichenkova T.B., Jakovlev G.I. Modifitsirovannye gipsovye materialy kondensatsionnogo tverdeniya [Modified plaster materials of condensation curing]. Construction Materials. 2014. No. 1–2. Pp. 42–45. (rus)

11. Anikanova L.A. Volkova O.V., Redlih V.V., Samohvalov A.S., Samohvalova I.V. Ograzhdayushchie konstruktsii s ispol'zovaniem ftorangidritovykh materialov [Wall structures based on fluorine-containing materials]. Vestnik TSUAB. 2015. No. 2. Pp. 144–152. (rus)