WO2001025563A1 - Composite consisting of a concrete support and of a glass body - Google Patents

Abstract

The invention relates to a composite consisting of a support (3), a glass body (1) and of a coating (2) that is arranged therebetween. The coating (2) contains a cross-linked silicone rubber which bonds the support (3) and the glass body (1) to one another.

Description

Composite of concrete beam and glass body

The invention relates to a composite of a carrier, a glass body and a coating arranged between them, which glues the carrier to the glass body.

For decorative purposes as well as for the purpose of weather protection, it is often necessary to provide building facades, interiors, etc. with a glass body cladding.

The base is often made of concrete, which acts as a support for the glass body. This concrete beam can be used by e.g. Building outer or inner walls as well as precast concrete, which are applied as cladding elements are formed.

A number of methods have been developed for establishing a connection between the glass body and the concrete beam. For example, it is known that the glass to fix the body to the concrete surface using synthetic resin adhesive. Disadvantages of this fastening method, however, are unsatisfactory service life and inadequate resistance to temperature changes.

From EP 0 700 776 A2 a composite of a concrete beam, a glass body and a layer arranged between them is known. The layer contains cement, a filler and an aqueous dispersion of a polyacrylic acid derivative. In the production of the composite, the glass pane is first coated with a composite mortar containing the above layer components. Then the compound mortar with a lack of hydration water on the

Glass pane hardened to a solid layer. The glass pane coated in this way is then applied to a not yet hardened concrete support. What is essential for the stability of this composite material is the monolithic bond between the coating and the concrete beam, which arises when the concrete hardens due to the cement phase crystallites growing into the coating that is cured with a lack of water of hydration.

The composite according to EP 0 700 776 A2 does have improved service life and good resistance to temperature changes. The disadvantage of this composite is the high weight of the coated glass plates when they are installed. When the coated glass plates are transported, their larger volume is also perceived as annoying. Another disadvantage is the complicated production of the composite, since the coating of the glass plate and the curing of the coating are spatially and temporally separate from the connection of the coated glass plate to the concrete ⁾ i- ¹ σ cπ O Cπ o Cπ

rt er 3 PJ W α P ⁾⁾ σ W <cn CΛ cn vQ σ <oi σ CD rt iQ 3 <! 01 ≤ CD O CD d CD 01 O CD d CD 3 CD ^ ro P- P- CD P- PJ d Ό P- P- CD CD P- d P- o rt

Tj H 3 1-1 cn H n 3 Hi 01 P- HP ⁾ P ⁾ 01 ro H ω H CD 3 3 3 CD 01 Ω 3 P>

P- d O er <P 3 Ξ iQ s: 01 Q 3 O er 01 P- ω rt. ^ d CD P ⁾ IQ ιp tr rt Λ tr t- ¹ P- CD CD d CD ι_ι. CD CD P ¹ dt Ω? P> ts ro Ω> 3 d 3 rt CD rt cn rt

Ω rt P- 3 N rt H 01 CD 3 3 ⁾ W ~ J 3 O: OO: P "11 01 V d 3 3 r Hl tr rt CD N α Ω £ O- 01 o H 3 li rt Hi rt Hl CD D- rt CD 3 P> P-

CD α JT P- rt CD tr CD P- CD ^ CD o TJ X Ό CD P- P ⁾ P> ιQ CD ro 3 O: 01 3

3 CD P- 3 Ω CD H ¹ P- iQ P- O: er d CD ⁾ ro 3 3 P ¹ . P ⁾⁾ N 3 1-1 ιP Ό

1- ω ιP ET CD P ⁾ CD 3 H CD ~ J 3 H dn rt er 01 d P "P" CD

S Ω 01 3 C H <P P- 01 Ό 3 -J rt rt d d ö CD ≥; M <! P- P> rt

CD ffi 3- Hl ro P- Hl CD iP _^ <CD σ> ro 3 01 P> Q. 3 3 P- O: ro P> ι-ι o Ω rt •

Ω P> CD CD rt P "P- 3 CD CD 1-1; v H P- Ω 3 P> ιQ ιQ CD ∑: HH Ω Hi 3 tr rt tr Hl 3 oi CD P- 3 3 ιQ H ro 01 rt tr ^ Q EP CD P- Ό tr P- CD ω n- rt Ω Hi d P- M Ω D d CD 01 3 li ro fU: rt 3 P- 3 3

CD P- CΛ O d • ^ CD P ⁾ 3 3 tr P-? O Ω 3 a. H 01 CD α ro 01 ιp ¹ CD CD ιP rt 3 3 d = P-ET. ro ro 3 H P- tr d rt 01 P- d 3 rt P> d:

≤: l- (HW P> - <p ιp Ω H o P- P ⁾ CD ro 3 CD <Q tr P- ^J 3 • P 3

H er er CD 3 P ⁾ 03 CD 3- CD i-. NH 3 3 3 oj: H CD CD ιQ CD IQ ≥! 01

H dd P- d ιp er N 3 H CD ιQ CD rt CD N ιQ P ⁾ P "P, CD ⁾ er rt

? a 3 rt Hl rt CD CD CD 01 P): P- CD rt CD tr rt s: rt s; 3 O: N 3 N Ω ro P- d 0- α. CD ω 3 H P- rt ιQ rt ω H P>: CD P- CD 01 01 dd P- tr H ι a er 01 Ω P>: CD rt CD CD P ¹ Ω 01 P ^J 01 <! P- • rt 01 <! CD rt CD ιP P ⁾ <P CD rt tr EP P- P- Ω 1-1 P- tr P- <! rt tt) Ω O rt H rt CD <3 CD P- P-

CD d CD oi P- d Ω ιQ tr Ω Ω CD _^ CD 3 "H ro = α CD li CD P- rt 01 a H) 3 P- υa W ιP tr CD 3 01 tr ⁾ tr H 01 CD • _^ n Ω d P "er H d ω rt

_^ tu: rt X CD CD 01 P- rt iQ I s: Ω 3 er tr 1-1 P "d 3 Hi CD

EP N CD <J Hi 3 01 P ⁾ ιQ CD <-> CD tr P- CD Ω CD a ro ιQ 3 P> N s: CD rt P- CD d S Ω rt CD 3 o CD P- CD ro tr 3 x P- PJ dd

CD a P-. rt H 3 N tr rt rt CD 3 er Ω Ω P- 3. 01 • he α ω α

(D f P d er Hi N 3 rt tr tr 3 d rt ro P> CD CD ro ^ P ro

Ω H) HM er P ^J CD P- s: P- CD P- • ro rt CD <3 ro P- d 3 01 CD 3 a- = 3 CD CD 3 n 3 CD 3 3 <CD H d 3 CD ιQ 3 01 N tr ~ "ro li w p- er ^» 01 α. 3 CD 3 ü 3 H CD P "CD dd C 0):

• τ) CD rt P ⁾ CD CD CD rt H ro iQ H er 3 ro 3 ro 3 ιQ rt H

P- «CD tT CD 01 3 3 3 CD er P- H CD td 3 P- α t P ⁾ rt P> ao <P CD P ⁾ " rt 3 d 3 3 CD Pi: 3 <3 d 3 ro

CD CD K K EP O: 3 CD P- ιQ CD σ CD CD ro 3 rt

P- er -j 3 <! pi H CD P- H o CD

CD CD σ CΛ O Hi - O oi Ω 01 B o. Α H ⁽ -3 3 CD P, ro P, 3 P- o. R

CD Hi H CD left 3 CD 01 3 ⁾

1-1 <J o P> l- (rt D CD tr er α. H P- P>: 3 CD w O d t-3 CD 01

CD rt HHH Ά s: P- P ⁾ 3 ιQ d HHH 3 H 3 Cd

∑ö H ~ j N P> CD P- 3 α ro <! 3 P> Hi NP ⁾ :. CD CD

CD er ^ j ιP H d CD CD P. α dd ri ro H P- d> P P- P. rt & ιQ H- σi N CD er d 3 er 3 CD H 3 li rt 3 ιQ ιQ CD p) ro O he

CD ac ¹ 3 d H CD P- Ω ιQ d 3 ro α. rt ro t- (d H 3 H

(- ^■ pj 3 Ω H »Q 01 o tr 01 3 CD P- P) d CD 3 CD o CD, P-

C l \) (ü α tr P3 (D rt l- (^ Q α rt a P d 1-1 er Ω pj: 3 p> a PHHP ⁾ vQ CD N CD 01 iQ EP 3 tr CD tr 3 ιP d ιP CD - tu: P ⁾ rt Pi: 3 0- rt 3 N P> 3 3 ro

Hl CD P- P> »Q 3 rt 3 P> P>: ro CD d Hi P- CD 3

3 3 0) CD vQ EP EP 3 3 1 & 1 3

CD H CD CD 1

the interaction of cohesion and adhesion, as well as diffusion processes and electrostatic attractions in the molecular range.

Since the non-crosslinked silicone rubber can only be applied to the glass body and carrier shortly before they are joined, both the assembly and the transport of the glass body are simplified. Furthermore, the silicone rubber advantageously also allows the covering of already hardened supports with glass bodies. Since the cross-linked silicone rubber has elastic properties, the composite has high thermal shock resistance. Advantageously, the cross-linked silicone rubber can also be used to realize a large-area bond with an area of one or more square meters.

Further advantages and refinements of the invention result from the following exemplary embodiments and the figures. Show it:

1 a composite according to the invention with adhesive application over the entire area in cross section and in supervision,

Fig. 2 shows a composite according to the invention with point-by-point adhesive application in cross section and in supervision and

Fig. 3 shows a composite according to the invention with striped adhesive application in cross section and in supervision.

The composite shown in Figure 1 consists of a carrier 3, a glass body 1 and between cυ ω ro ro cπ o Cπ o Cπ Cπ

CΛ <ro s: α. ö <! "N Cd rt ιp l O d CΛ Ό α ιP ^ ⁾ M ω N 01 t → er Cd Cd N t-3

^ d P- ro P- ro CD P> d CD P- CD d α 3 P- P ¹ CD P> d P- P-. o CD CD CD ro d H

01 3 P- OH li H "» 01 CD ι 3 ^ ro P. Ω P> ι- (CD ω Hi ιP Ω ω s: P- rt rt P- 01 P>: rt; v ι rt li z rt rt Ω er CD ⁾ : H tr rt P- ro ro tr. P- Ω OO P> iP

CD P> ro CD ιP CΛ ro tr CD l-i EP CD CD rt cn Ω H ro 3 CD tr 3 3 P. CD

3 3 P> H P> P- 3 d P- P- ti * _* CD P ⁾ ti CD tr N P- 01 ιP ro rt rt rt ro H

P- H tr 3 p. ^J d Ω PH 3 9 tr>«P> Hi ro 01 Ω CD P- ιP NHH

01 he P- O P- ro 3 ro

N? H tr <3 P- p. 3 CD 01 P> 3 ro tr N 3 ι d P>: P>: 3 CO d) ro 3 01 Ω rt ⁾ Ω rt ro CD CD CD. P- he? P ¹ ro 3 P> ro CD Hl 01 ιP <P t-3 tr ιP rt P- P- o • 3 tr d H d 01 CD li rt CD O: P- 3 ■ Hi P- 01 Ω CD CD H pj : d ro P- rt 01 3 P- 3 s, rt CD er CD w 01 P- H ω rt rt v tr KH P>: 3 3 ιP o CD P- O? 01 <! ip CD H 3 ro H ιp ω TJ - »σ ro rt« W> P ιP ro 3 rt 3 XP ⁾ P- d 3 P> 3 cn Hi -> ^• o CD P. P- 3 ^ d CD P> d CD CD er 01 •. P> d CD! V ro P. P "> P ^J P- P ⁾ P- H CD« ro 3 P- ιp 3 ι- (3 cn

CD tr 3 rt HP »CD d <! P ⁾ 3 oi ro 3 d P- α 01 3 oi D PP

3 P- P- CD 01 CD 3 he <J 01 O ω * P>

CD H! 3? 01 g 3 <! 3 P ⁾ rt CD rt H CD P ⁾ -> d 3 Ω 3 P- P- _^ »01 ro EP tr 3 O er 01 t. Hi Ω tr 01 H d = O: 3 3 s: P- P »rt H ^) ⁽ P Hi 3 ro tr CΛ? C

CD 01 tr α er d CD P) s: 3 tr w ri ι P- CD ω ri 01 ZP "P. li d Hi CD 01 P ⁾ Ω O: li 3 P) ro? Rt CD CD CD H ro TJ 01 rt P- rt. rt CD CD ro N 3 CD er O 3 tr li p. P- «oi CΛ P- rt rt d rt CD vP 01 O 3 σ r- {CD ιQ 3 D 3 p. P- Ό

CD rt P- o CD P- o • Ω N 3 o H CD CD ro H- Hi α CD ⁾ 01 CD 3 P. ro Ω CD

3 rt H "« H 3 P * 3 tr CD «P 3 3 P- 3 Hi d <li * _* 3 £ CD P ¹ tr M

• CD Hi N rt P- • ö CD 3 01 rt <: 3 ⁾ CD 3 ro rt P- NH rt rt

01 CD d tr Ω P- H α er 1-1 CD EP CD d <J ιP n P- σ CD ro CD 01 P>

N 1 er ιp P>: O ω CD CD ro P>: HP, 01 o er ιP ro P- 3 ro er d O CD rt P ¹ 3 ro P- P. P- υa s: li KP ⁾ d ro 01 3 Λ CD er ω P- P>

• -i p. d H rt ι * r 01 <3 01 ro CD O: rt ** i ro 3 3 rt CD Ω 3 CD 3 ro 3 01 T) P> o CD TJ ι- (3 3 P ^J P- rt PP rα ro ω tr rt <01 P. ιP

<H p. • <o P ⁾ d 3 li <3 P- P. 3% o ro P ⁾ CD ro tr P ⁾ o P- CD CD

CD 01 (- ^< rt p. 3 CD P- ro ω CD CD P- ⁾ v li 3 rt rt tf d P> n Ω 3 O

H • τ) vl rt • 01 01 CD CD ι- (CD P ¹ rt 3 01 rt ro P "ro P- 0. OP d N tr P. li

3 p- d CD Ω H rt 3 P d Ω 1 3 CD H rt 3 P ¹ vP 01 d CD P. ro 1 01 3 P- cn tr 01 N CD CD ro 3 S. P ⁾ tr p. rt H "ιp er 3 3 rt p ⁾ 3 dd rt H P- CD d ro o ro dm CD H 3 P) CD rt ro CD

N CD rt ^ ro d tv er 3 N 3 3 H Ω 3 α 3 ω li P- Pi: CD 01 P- <CO rt d 3 N = et 3 ro CD ιP rt o cn tr ro ≤ P>: 3 U3 P li 3 do CD CD

3 rt ω P ¹ tr α <! CD P ro P ^J CD ö H ^ • ιP CD CD CD ro O CD PH 03 3

«P CD rt • <Ό P» o CD 3 d P- P ⁾ 3 cn P- P »CD 3 ι-1 li 3 P. 3 N Ω

O 01 o P <H H M 3 01 H Ω W P- l-i CD ro d tr d ro ^ Hi rt 01 01 N Hl N P- ^? P)? R P- 01 a ι a K H O P- iP P- 3

3 O: Hi O P- d O d ιP o O: 01 ro 3 rt s: P ¹ li P> P- 3 rt Ω P. rt 3 CD Hi -> «ιP P ¹ 01 CD 3 K t 01 CD P - P> 3 P> rt ro CD CD tr tr 3 Hi o CD H- rt ιP rt H Ό Ό CD N Ω P- l_l. ro oi 01 CD H 3 d rt ro p>: CD £ CD XH CD rt P> o CD li s: tr 3 ro? rt P- li P ⁾ : 3 d P-

H "3 P- P> CD er s: 3 CΛ 3 1-1 P ⁾ P- ro CD SO: P- 01 P- tr 3 t → 3 3 rt CD 3 CD CD er P. P- CD 3 01 P - OO: ti ιP P ⁾ rt CD CD CD «P ro α • hd n CD H 0 P ¹ p- Ω σ Q Ω H ^• o CD tr P ^J O tr P- p-

P * CD o P- P. P- 1 tr ro tr rt CD p ⁾ CD 3 li Ω 3 ro

P ⁾ 3 P> CD o P- Ω - CD ro 3 P ⁾ CD H rt 01 * _* CD tr CD •

01 * 3 H ro o P- 3 3 1 01 1-1 rt 3

1 1 3 1 ^ 1 1 P.

Adhesive system an alkoxysilane crosslinker. At 23 ° C, the vulcanization time can be between 1 and 2 mm / d, the shrinkage during vulcanization preferably being less than 5%.

In practice it has been found that the adhesives according to the invention can be processed in a wide temperature range from -20 ° C to +40 ° C and in the crosslinked state in a wide temperature range from -40 ° C to +120 ° C Have elasticity.

The crosslinked coating 2 in the composite according to the invention preferably has a tensile strength (DIN 53 504-S1) of more than 1.2 N / mm ² , an elongation at break (DIN 53 504-S1) of more than 500% and a resilience at 100% elongation (DIN EN 27 389) of more than 95%.

When producing the composite, the adhesive is first applied over the entire surface (Fig. 1) or e.g. applied in dots or stripes (FIGS. 2 and 3) to the carrier 3 or the glass body 1 or to both at the same time. The application can e.g. by spraying, knife coating or rolling. The application can be preceded by pretreatment of the carrier or vitreous. It may be appropriate to use carrier materials made of e.g. First subject gypsum, brick, concrete, etc. to a surface treatment (brushing, sanding, sandblasting) and then apply a primer after this surface treatment. The vitreous can be cleaned beforehand with alcohol.

After applying the adhesive, the carrier 3 and the glass body 1 are glued and the crosslinking of the ro o cπ cn

01 cn; v 3 <rt 01 ü Cd tr <P. Cd φ Hi P ⁾ 01

P- CD PJ ro o Φ Ό ^•

Φ Φ Φ P> d ro CD P- P- d ro

3 er 3 3 3 P- H P- H H Hi P "01 H 3 tu: Ω 3 CD

P. ⁾ : 3 rt P ¹ z ro φ rt * ^* Φ ro Ω tr er

• d ro P- φ ro P- P- Φ P>'X P- tr ι ro α α 3 3 01 3 01 3 Ω H 3 Ω Cd P- ro H ro CD P. s: tr Z P- CD tr ro ι P ⁾ 01 ω z P. Φ P. P ⁾ φ Φ P. Φ ro 01 er Φ 01 Φ ^* Ω

P ⁾ : ii Φ 3 rt P- Φ 3 P- P> CD 3 Ω 3 d tr 01

3 CD H) l-i 01 3 ω rt l-i tr ro rt

PHO P. Z φ P> ro P- 01 P ⁾ P-! 3- P ⁾

CD Hi PJ φ φ ^ d o d Ω Φ rt

P- vP 1-1 3 HP ⁾ P- 01 d: 3 Φ 01 tr CD CD 3 rt d 3 rt (U: P ^J ι er 3 • rt σ H •

3 P • <P N ro 01 d P. ro CD rt d Φ O

Hi d CD d 3 H φ H 3 01 t 3 H H Z ö

P> 3 s H • _* ^ Φ 3 rt rt 3 ι P ⁾ ro o P ⁾

03 ιp Ό <φ 3 P. 01 P> d 01 er 03

01 01 s: ro s: H <P- rt 3 P. P- Hi 01 ro ro ι Φ P> H o rt P. φ φ Φ P. p- 3 rt CD P- <

3 CD P- rt; * er P- P> l-i tr Φ φ 1-1 3 CD

3 Ω rt P- ¹ CD ιP H er rsi ro 3 01 ^ P ⁾ 01 H,

P>: tr CD CD P- er ιP d Z 3 CD φ o iP p. o Λ- z EP ro P- PJ ro 3 P- P 3 H ro z P ¹

CD CD 3 <α d 01 P. 01 ro CΛ 3 er 3 o Φ

H "P. Φ CD P- rt rt Ω" d P-? tr σ

Ω <li 3 φ Φ CD ro tr £ & P ⁾ er ro t CD <! 01 P. P- 3 φ ro 01 o α ⁾ 3

CD HO CD Φ Cd rt 3 rt rt 3 Φ li φ er 3 3 3 Φ rt z ι-ι tr P> rt P- - er d Ϊ Hi N Φ ro tu: P ⁾ 3? 3 P- 3 PJ

CD 3 P. rt α Φ d P- g 3 N O: P- 01 3

H p. p- CD 3 01 <Ω p o Φ 3 Ω Φ rt t 3 ro Φ 3 rt rt <Φ tr φ 3 3 tr H • •

P- P ⁾ 01 CD P- φ H ro P Φ rt PN rt d ro Cd H v i- er 3 N Pi: Z 3 <! Cd r- <•

01 Ω H CD <P d ^* d. Z 3 P- N Φ ro P ⁾ Cd tr Hi p, 3 3 P- 13 CD er d H P- d •

Hi <CD d ιp Φ P. 01 Hi ro 01 3 ->

CD ι-3 o 01 3 P- Ω φ er P- P> ro 3 P-

01 H l-i rt P P. P. ^ tr Φ tli: 3 3 rt P- 01 d rt ιP P- Φ d P> ro <P- N Ω Ω H iP ro ιp 3 01 3 3 3 O <ro rt tf tr Ω

<CD tr d P- ιP 3 H p. ro 3 CD rt ro tr

CD ι- <ro 3 rt 1 ω rt Φ H tr 01 l-i 3 ιP Φ N er ro Φ H 3 tu: ^ ιp

P ⁾ s: 01 01 tα H ≤ Φ 3 P- CD 3 P ⁾ P> ro

3 p- Z CD p- rt ro P- P ¹ rt ^ P CD 3 left

? ro ro P ¹ P "P- o 1 1 N Φ er N 01 T3 ro P- CD Hi ιQ - CD 3 CD 1 left

H 01 1 ro 1 Φ 3 α H CD rt ro 3 Φ 03

3 1

Claims

claims 1. composite of a support (3), a glass body (1) and a coating (2) arranged between them, which glues the support (3) to the glass body (2), characterized , that the coating (2) contains a cross-linked silicone rubber. 2. Composite according to claim 1, characterized in that the coating (2) contains a vulcanized silicone rubber. 3. Composite according to one of claims 1 or 2, characterized in that the silicone rubber is a one-component system. 4. Composite according to one of claims 1 to 3, characterized in that the coating (2) contains a crosslinked polydiorganosiloxane. 5. Composite according to claim 4, characterized in that the polydiorganosiloxane is polydimethylsiloxane. 6. Composite according to one of claims 1 to 5, characterized in that the coating (2) contains fillers. 7. Composite according to one of claims 1 to 6, characterized in that the coating (2) contains additives. 8. Composite according to one of claims 1 to 7, characterized in that the coating (2) has been produced using an alkoxysilane crosslinker. 9. Composite according to one of claims 1 to 8, characterized in that the coating (2) has a tensile strength of more than 1.2 N / mm ² (DIN 53 504-S1). 10. Composite according to one of claims 1 to 9, characterized in that the coating (2) has an elongation at break of more than 500% (DIN 53 504- Sl). 11. Composite according to one of claims 1 to 10, characterized in that the coating (2) has a resilience (100% elongation) of more than 95% (DIN EN 27 389). 12. Composite according to one of claims 1 to 11, characterized in that the coating (2) is arranged in the form of a coherent area or in the form of non-contiguous areas between the carrier (3) and the glass body (1). 13. Composite according to one of claims 1 to 12, characterized in that the glass body (1) is a glass plate or a glass ceramic. 14. Composite according to one of claims 1 to 13, characterized in that the carrier (3) is a concrete carrier. 15. Composite according to claim 14, characterized in that the carrier (3) is a lightweight concrete carrier provided with light aggregates.