Учебники 80365

.

50

9.Artigues J.C. Impermeability and resistance to carbonation of concrete with microsilica and water-reducing agents / J.C. Artigues, J. Curado, E. Iglesias //Admixtures for Concrete. Improvement of Properties: Proceedings of the International Symposium held by RILEM. London: Chapman and Hall, 1990. P. 229-240.

10.Artigues J.C. Study of the effectiveness of water-reducing additives on concrete with microsilica / J.C. Artigues, J. Curado, E. Iglesias //Admixtures for Concrete. Improvement of Properties: Proceedings of the International Symposium held by RILEM. London: Chapman and Hall, 1990. P. 156-167.

11.Larbi J.A. The chemistry of the pole fluid of silica fume-blended cement

systems / J.A. LКЫЛТ, J.M. BТУОЧ // CОЦ. КЧН CШЧМЫ. RОЬ. 1990. V20. № ζ.

P. 506-516.

12. Mather, Concrete-Vear 2000, Revisited in 1995 / B. Mather // Adam Neville Symposium on Concrete Technology. Las Vegas USA. 1995. P. 1-9.

13.Collepardy M. The New Concrete. Published by Grafishe Tintoretto / M. Collepard. Italy, 2006. 421 p.

14.Compatibility between superplasticizer admixtures and cements with

mineral additions / O. Burgos-Montes [et al.] // Construction and Building Mate-

ЫТКХЬ. 2012. № 31. P. 300-309.

15. Lazniewska-Piekarczyk Beata. The influence of selected new generation admixtures on the workability, air-voids parameters and frost-resistance of selfcompacting concrete / Lazniewska-Piekarczyk Beata // Construction and Building

51

Materials. 2012. P. 310-319.

16.Corinaldesi Valeria. Combined effect of expansive, shrinkage reducing and hidrophobic admixtures for durable self-compacting concrete / Corinaldesi Valeria // Construction and Building Materials. 2012. P. 758-764.

17.Ma Baoguo. Rheological properties of self-compacting concrete paste

containing chemical admixtures / Ma Baoguo, Wang Huixian. J. Wuhan Univ.

σОМСЧШХ // MКЭОЫ. SМТ. EН. 2013. № 2. P. 291-297.

18. Mardani-Aghabaglou Ali. Effect of different types of superplasticizer on fresh, rheological and strength properties of self-consolidating concrete / MardaniAghabaglou Ali, Tuyan Murat, Yilmaz Gokhan, Arioz Omer, Ramyar Kambiz / Construction and Building Materials. 2013. P. 1020-1025.

REFERENCE

1.Dem'yanova V.S. Vysokodispersnye organomineral'nye modifikatory

МОЦОЧЭЧШРШ ФКЦЧвК Т ЛОЭШЧК // IгЯОЬЭТвК VUГШЯ. SЭЫШТЭОХ'ЬЭЯШ. 2003. № 3. S. 73.

2.Kaprielov S.S., SHejnfel'd A.V., Batrakov V.G. Kompleksnyj modifikator betona marki MB – 01 // BОЭШЧ Т гСОХОгШЛОЭШЧ. 1997. № η. P. 38-41.

3.Batrakov V.G. Modificirovannye betony. Teoriya i praktika. 2-e izd. Moskva: Tekhnoproekt, 1998. 768 p.

4.Bazhenov Yu.M., Dem'yanova V.S., Kalashnikov V.I. Modificirovannye vysokokachestvennye betony. M.: ASV, 2006. 368 p.

5.SHatov A.N. Modifikatory dlya betona otvetstvennogo naznacheniya /

A.σ. SHКЭШЯ // BОЭШЧ Т гСОХОгШЛОЭШЧ. 2013. № 1. P. 7-9.

6.SHejnfel'd A.V. Organomineral'nye modifikatory kak faktor, povy-

52

shayushchij dolgovechnost' zhelezobetonnyh konstrukcij / A.V. SHejnfel'd // Be-

ЭШЧ Т гСОХОгШЛОЭШЧ. 201ζ. № 3. P. 16-21.

7. Kaprielov S.S. Modificirovannye betony novogo pokoleniya: real'-nost' i perspektiva / S.S. Kaprielov, V.G. Batrakov, A.V. SHejnfel'd // Beton i zhelezobe-

ЭШЧ. 1999. № 6. P. 6-10.

8.Usherov-Marshak A.V. Dobavki v beton: progress i problemy / A.V. Usherov-MКЫЬСКФ // SЭЫШТЭОХ'ЧвО ЦКЭОЫТКХв. 2006. № 10. P. 8-12.

9.Artigues J.C. Impermeability and resistance to carbonation of concrete with microsilica and water-reducing agents / J.C. Artigues, J. Curado, E. Iglesias //Admixtures for Concrete. Improvement of Properties: Proceedings of the International Symposium held by RILEM. London: Chapman and Hall, 1990. P. 229-240.

10.Artigues J.C. Study of the effectiveness of water-reducing additives on concrete with microsilica / J.C. Artigues, J. Curado, E. Iglesias // Admixtures for Concrete. Improvement of Properties: Proceedings of the International Symposium held by RILEM. London: Chapman and Hall, 1990. P. 156-167.

11.Larbi J.A. The chemistry of the pole fluid of silica fume-blended cement

ЬвЬЭОЦЬ / J.A. LКЫЛТ, J.M. BТУОЧ // CОЦ. КЧН CШЧМЫ. RОЬ. 1990. V20. № ζ.

P. 506-516.

12. Mather, Concrete-Vear 2000, Revisited in 1995 / B. Mather // Adam Neville Symposium on Concrete Technology. Las Vegas USA. 1995. P. 1-9.

13.Collepardy M. The New Concrete. Published by Grafishe Tintoretto / M. Collepard. Italy, 2006. 421 p.

14.Compatibility between superplasticizer admixtures and cements with mineral additions / O. Burgos-Montes [et al.] // Construction and Building Materials. 2012. № 31. P. 300-309.

15.Lazniewska-Piekarczyk Beata. The influence of selected new generation admixtures on the workability, air-voids parameters and frost-resistance of selfcompacting concrete / Lazniewska-Piekarczyk Beata // Construction and Building Materials. 2012. P. 310-319.

16.Corinaldesi Valeria. Combined effect of expansive, shrinkage reducing

53

and hidrophobic admixtures for durable self-compacting concrete / Corinaldesi Valeria // Construction and Building Materials. 2012. P. 758-764.

17. Ma Baoguo. Rheological properties of self-compacting concrete paste containing chemical admixtures / Ma Baoguo, Wang Huixian. J. Wuhan Univ.

σОМСЧШХ // MКЭОЫ. SМТ. EН. 2013. № 2. P. 291-297.

18.Mardani-Aghabaglou Ali. Effect of different types of superplasticizer on fresh, rheological and strength properties of self-consolidating concrete / MardaniAghabaglou Ali, Tuyan Murat, Yilmaz Gokhan, Arioz Omer, Ramyar Kambiz / Construction and Building Materials. 2013. P. 1020-1025.

19.Himiya privityh poverhnostnyh soedinenij / Pod red. G.V. Lisichkina. M.: FIZMATLIT, 2003. 592 p.

20.Percev V.T., Ledenev A.A., Rudakov O.B. Fiziko-himicheskie podhody k razrabotke ehffektivnyh organomineral'nyh dobavok dlya betona // Kondensirovannye sredy i mezhfaznye granicy. Tom 20. № 3. P. 432-442.

54

REVIEW OF COMPOSITION MATERIAL, FORM OF WHICH IS POSSIBLE TO BE CONTROL BY MEANS OF LIGHT, HEATING AND MAGNETIC FIELD

A.I. Otchenashenko*,V.V. Korneeva

55

Voronezh State Technical University, Russian Federation, 394006, Voronezh, ul. 20-letiia Oktiabria, 84

*Corresponding author: Alexander I. Otchenashenko, E-mail: alot.zte@gmail.com

The interaction between light and matter has long been studied. With the help of optical mechanics, you can deform the material, depending on the goals. The article presents flexible material composites that, when illuminated, are capable of macroscale motion. These composites can be used as films, sponges and hydrogels and can be activated by light. As examples of the versatility of this approach, elastomeric composites for moving objects and «engines» rotating under the influence of light are demonstrated.

Keywords: innovative materials, light-reactive composites, information management, silk fibroin, polydimethylsiloxane, Curie engine, photothermal demagnetization, chromium dioxide, biopolymers, elastomers

56

57

.

58

. 1.

59