SYSTEM FOR HEAT INSULATION  “CHEMIPLAST”

 

Attachment

 

The CHEMIPLAST system is applied for insulation of internal and external heat insulation of all types of construction walls: bricks, concrete, construction blocks, light concreate, on new and old buildings. The technology is based on layering of polystyrene insulating plates that are glued to the wall surface, protected by athmospheric conditioning by flexible plaster, and is supported by glass fiber net construction.

 

1. APPLICATION ON OLD BUILDINGS

 

Why it should be used?

 

· In case of moulding and water condesation

When the inside surfaces of old buildings suffer from water condesation and consequently moulding, this means that at some areas (especially on the hight of column coverage at the weight bearing pillars) the inside temperature of walls is close to the outside temperature and thus it is equal to the temperature of water vapour condensation. The CHEMIPLAST technology will increase inside surface temperature of walls and thus the point of water condesantion will be moved in the insulating material. This will stop water condensation. Also it shpould not be forgotten that necessary control over the ralative humidity should be excercised by air ventilation according to the mandatory norms.

 

· In case of wall cracks and water infiltration

Recently there has been more and more cases related to cracks on concreate or brick structures. The CHEMIPLAST technology will provide terminal solution to these problems by eliminating the causes of the structural failiures (temerature devitions), that would cause the motion between the different structural elements. It will also solve problems related to water infiltration through the structurals cracks.

 

· With the purpose of reduced energy consuption of uninsulated buildings

The CHEMIPLAST technology is simple and at the same time very effective system for insulation of old buildings whaere any insulation is not provided on a structural level. This system will transform the building façade to its original condition and will also provide for economy of energy associated with building insulation.

 

· With the purpose of faster return on building repair investments

Building renovation cost usually will not provide any return. In case the CHEMIPLAST technology is employed the associated cost might be a little higher but a simple benefits anlysis will put things in different prespective. Most of all if this technology is applied maintenace expences will be drastically decreased. Therefor this is economically sound investment that will also provide positeve ecological effect based on the decreased consumtion of energy. It will be fair to say that the higher costs associated with the repair job will be returned in a couple of years.

 

· Because it is a terminal solution for heat insulation and repair of building walls

The CHEMIPLAST technology will protect the entire building from atmospheric conditrioning and sudden temperature deviations. It will effectively protect the building from cracking, water infiltration, and it will provide for very good heat insulation.

 

               

               

        Heat insulation system for buildings

 

General decription of the Swiss system “ CHEMIPLAST “

 

Main characteristic of all coatings (plasters and paints) employed in the system “CHEMIPLAST “ (Switzerland), is its durability, scrubs resistance, and color resistance.

The coatings are developed on the basis of high quality acryl copolymers, featuring broad color spectrum and surface textures. The offerd acryl coatings do not containg any cement or lime that makes them highly water resistant.

The acryl-vinyl coatings as well as all other materials used in the by the technological system for heat insulation by the swiss methodology devloped by “CHEMIPLAST “ (Switzerland), are permited to be applied on the territory of Europe and possess quality cerificates issued by SGS-Switzerland. The producer has the right to apply its own qulity seal. In parallel the products of “CHEMIPLAST “(Switzerland) have been tested by the Research and Development Construction Institutute and НИИСМ –Bulgaria with test protocols №№ 32; 45; 00-336; 140; 141 and 167 etc. that are to testify that the tested products are complient to the required Bulgarian stadards: BDS ЕN ISO 3251; BDS EN ISO 24624; BDS ISO 2812-1; BDS EN ISO/IEC 17025; BDS ЕN 13499.

According to statistical data some nighty percent of the residential buildings in Bulgaria need heat insulation. The panel construction common for the period 1960 -1980 is prone to high costs energy costs associated with poor heat insulation that these buildings feature. The deep infiltration of moisture at the joints of concreate panels results in corossion on the steel joints and in time could lead decres in their durabilty and to structural damage.

 

Because of the constantly rising prices of electrical energy it is easy to illustrate the necessity of enrgy savings. The energy waste is best illustrated by the persentale energy leakage on the outside surfaces of suburban houses:

 

 

 

 

 

In comparison for residential buildings this ratio is:

 

Walls	34,2%
Windows	30,0%
Roof	5,7%
Basement	2,5%
Ventilation	27,6%

 

 

As evident from the statistical data in residential building as well as the suburban houses the highest energy losses are accumulated by the outside walls.

The two pictures below clearly show the enegy leakage in case of insulated outside walls and uninsulated outside walls.

     

 

 

 

        The single non recurrent cost for heat insulation of a building is easily repaied – approximately in couple of years. It will increase the building life and will provide for additional ecological effect (trigerred by the savings in energy consumption for heating) by decreasing the polution associated with higher energy consumption.

                                                                    

Warm and dry house is the basis of a healty life.

Good insulation means warm winter and cool summer.

 

One often overlooked aspect of heat insulation is the noise insulation provided by the polystyrene. The noise insulation, especially in the urban areas will increase the comfort of the building inhabitants.

The advantages that the multilayer heat insulating system features could be illustrated by the digram of heat distribution over a wall slice as shown below:

 

                   WALL THAT IS NOT HEAT INSULATED

 

 

 

The cold temperature penetrates inside the wall surface.

The point 0° is in the middle of the wall. The heat is dispersed outside:

1.unsufficient heat insulation      2. higfh costs for heat insulation

3.wall damages by moulding and fungus     4. structural damages

5.cold and uncoazy living area.

 

 

WALL THAT IS HEAT INSULATED FROM INSIDE

 

 

 

the entire wall is cold. Point 0° С is inside the insulating layer.

The living are will cool down quickly :

·       good heat insulation    ·     savings from the heat insulation costs

·       bad temperature distribution       ·      thermal bridges

·       structural damages     ·      missed opportunities for heat accumolation

 

WALL WITH HEAT INSULATION FROM OUTSIDE

 

The wall is heating and accumulates heat.

Point 0°С is situated far outside.

The walls will glow accumulated heat inside and will provide for steady room temperature:

 

·       possibility for steam penetration throught the outside wall (the wall will breath)

·       noise insulation of outside areas

·       warm winter, cool summer,

·       coazy and healthy home! 

 

 

 

Conservation of Acryl Plasters

 

1.               The contaminated surface of the plaster could be washed with water and cleaning detergent.

2.               The look of all acryl plasters (with exception to the plasters of type RESIMARM and CHEMICEM based on natural marble and clored qurtz) could be refreshed by applying special facade paints (acryl – quartz types) of the type CHEMIQUARTZ in the full color spectrum that is compliant to the color of the plaster.

3.               In case of unfavourable exploitational condititions, i.e. high buildings streatched on pedestrian zones, when the plaster reaches to the ground (in case of likely contamination due to athmoispheric conditioning), when the air is very poluted and acid rains are present, it is recommended to apply additional thickening of the plaster surface with the traslucent synthetic varnish MAIOLIKA. Depending on the solution (even up to 35% nitro solution), a thick coating with different levels of gloss could be achieved.

 

LIMITATIONS IN PLASTER APPLICATION

 

          All plasters should be used according to the application recommendations in their respective TECHNICAL APPLICATION MANUALS. In general it could be said that:

 

·        the temperature of the air and application surface should not be less than +5ºС for at least 24 hours after application.

·        application should be avoided in case of rain (the wet resin could be washed out), strong wind, direct sun light and high temperature (because of the very fast drying the surface may not be ironed).

·        the application surface should be coverd with the insulation adhesive paint of the type PRIMER SABLE, that will ensure good adhesivnes of the plkasterf and will protect the resin from the aggressive action of old varnish present in the old plaster.

·        all uncovered steel elements such as nails should be removed from the application surfaces because these could cause rusty spots on the acryl plaster.

·        CHEMIPLAST is permium quality plaster, that when properly applied according to the manual "technology of application" and according to the listed above limitations will ensure maximum durability for years to come.

 

SAMPLE CALCULATION OF HEAT INSULATION BASED ON THE “CHEMIPLAST “ (Switzerland) TECHNOLOGY

 

1.          Prerequisites

A.   The sample for heat insulation of walls do not account for cleaning, flattening, and filling of cracks and scratches on the applications surfaces as well as damages on the layers, removal and secondry assembly of metal and elements.

B.   For works conducted on the ground level, niches and balchonies application of mobile frames with hight up 4.5 m is considered.

 

2.          Basis for calculation of heat insulated surface

A.  The surface of walls with slices is calculated as an unsliced wall minus the surface of the slice only for slices more than 1 sq. m. When calculating the application surface please consider the depth surface of a wall slice.

B.   If the total wall slice surface does not exceed 10% it should not be considered.

C.   The heat insulation of internal terrace walls is calculated as unsliced surface minus the surface of the slices.

D.  In multy store buildings the heat insulating is addtionaly supprted by double layer of fiber glass net streatching from the baseboard to the ceiling of the story above the ground level.

E.    From insulated surfaces is subracted the uninsulated surfaces larger than 1 sq. m.

 

3.          Detailed description of heat insulating application.

A.   Cutting of polystyrene (EPS; expanded polystyrene)plates with the respective sizes.

B.   Preparation of glue base.

C.   Gluing of the coverd with glue EPS plates to the flattened, clean wall surfaces and depth cuts.

D.  Evetually the structure is additionaly reinforced by plastic clutches

E.    The fiber glass net is assmbled onto the EPS plates..

F.    Evetually a second layer of fiber glass net is plased on the ground level surface.

G.  Coating of the insulated surfaces with the chosen facade plaster.

H.  Assemby and deassmbly of the mobile frames in the interior parts of terraces and niches.

I.    Tin works on railings and guttering, assembly and deassmbly gutter pipes, baseboard, etc.

 

4.          Mean consumption of different materials for 1 sq. m. heat insulated surface

A.  Acryl glue Chemicol – 100 – 3.0 /4.0/ kg.

B.   Portland cement 350 – 3.0 / 4.0/kg.

C.   EPS-F+ (+ 10% allowance for loss and slice depths) – 1.1 м²

D.  Fiber glass net (+ 10% allowance for joints and slice depths) – 1.1 м²

E.    Clutches – 5/6/ pcs.

F.   Grout under the acryl plaster, i.e. PRIMER SABLE – 0.2 kg

G.  Thin-layer acryl plaster; depending on the type of plaster – 1.5 - 4 kg/sq.m., i.e. CHEMIPUTZ 2.0 – 3.0 kg

 

5.          Sample net consumption of materials for (transportation costs excluded) for 1 sq.m. of heat insulating surface and gross consumption (with VAT)

 

Acryl glue CHEMICOL ….. kg       х…..  =……….      +7%         =…………..

                                               

Portland cement cl. 350      ….. kg       х…..  =……….      +7% =…………..

 

Polystyren / гр.....см /        1,1m2       х…..  =……….      +7% =…………..

                                                                       

Glass fiber net           1,1m2       х…..  =………       +7% =…………..

                                                       

Clutches                    5-6pcs х …..      =………       +7% =…………..

 

Base grout                 0,2 kg       х ….. =……….      +7% =…………..

PRIMER SABLE          

 

External plaster         3,0 кг       х ….. =……….      +7% =…………..

 / chemiputz,graniputz …./

Total:                        net……………                gross…………….

 

ATTENTION: labour cost should be added to material cost. Labor cost vary depending of the complexity of application surface.

   

  

 

2. SYSTEM FOR NEW BUILDINGS

 

The technology “CHEMIPLAST” gives the opprtunity for construction of new buildings by application of ceramics products (or other construction elements) with singular depths that results in the following benefits:

·   Very low cost of purchase for ceramics construction products or other structural elements for walls

·   Decreased cost for structural fundaments because of its decreased depth

·   decreased transportation costs

·   Decreased labor costs

·   decreased construction time

·   Possibility for differed investment – insulation works could be performed immediately before the building is introduced for utilization

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1.          Traditional lime-cemet stucco

2.          Masonary (i.e. void construction block with max depth 29 sm)

3.          Glue i.e. CHEMIKOL-100Е

4.          Insulating pannel – EPS plate

5.          Glue base  CHEMIKOL-100 with dipped fiber glass net

6.          Thin layer flexible plaster i.e. CHEMIPUTZ

 

TECHNOLOGY FOR ADDITIONAL HEAT INSULATION OF BUILDINGS ACCORDING TO A LIGHTER METHOD OF THE SYSTEM CHEMIPLAST

  

The purpose of this document is to answer the frequently asked questions regrding the construction of the jointless system for heat insulation (BSO) with application of polystyuren (EPS) pannels. The manual contains detailed description of each separate application instance and the basic rules for application of CHEMIPLAST materials.

Esentil in this technology is the creation of water resistant heat insulating layer on the wall surface.

 

The CHEMIPLAST system is a complex jointless (BSO) methodology of materials providing termal insulation on external walls. This is possible by joining the EPS pannel to the wall by glue, and eventually by metchanical clutches, and reinforcing by fiber glass net dipped in glue coated with thin-layer plaster.

 

The drawings in the manual show sample solution for joining the CHEMIPLAST system to different construction elements.

 

 

Upon application of the CHEMIPLAST technology the following materials are employed:

·   glue  CHEMIKOL-100Е

·   EPS

·   reinforcing clutches

·   Net of glass fibers with weight min. 145g/m2 dipped in glue CHEMIKOL-100

·   grout

·   thin-layer flexible plaster i.e. CHEMIPUTZ

 

 

1.          Wall

2.          Glue CHEMIKOL-100Е

3.          EPS pannels

4.          Net of glass fiber

5.          Glue CHEMIKOL-100

6.          Grout

7.          Thin-layer plaster

 

 

 

3.APPLICATION TECHNOLOGY

 

Preparation of the base surface and gluing of EPS pannels

 

Before gluing of the EPS the base surface should be treated in the following manner:

·     The base surface should be cleared form dust, dirt and old paint remains with a metal brush and washed with high pressure water.

·     All layered parts of the wall should be washed.

·     Any old plasters with poor adhesives to the surface should be removed.

·     Larger cracks and scrubs should be filled with new plaster or glue.

·     Guttering and tin work details should be dissembled.

·     Before gluing of the EPS panels the surface should be treated with PODKLAD grout paint.

 

It should not be forgotten that the application surface should be dry. Please pay attention that the clean, washed application surface does not feature more than 5% humidity.

If there are any doubts about the weight adhesivness of the base surface, a weight test should be carried out. It is executed on different areas on the façade by gluing 8-12 plates of size 15 х 15 sm. These should be removed after 3 days. The test is successful if the disjoit occurs in the EPS layer. If the base shows signs of bad weight adhesivnes please contact a technical expert from CHEMIPLAST who will advise on aditional mechanical reinforsment or base surface treatment.

 

After the base has been prepared gluing of the EPS pannels could be started.

EPS plates should be glued at temperatures from +5°С to +30°С in dry weather.

In case of direct sunlight, rain, or strong wind, a protetive shelter should be applied to prevent the quick adhesines of the glue.

 

 

Preparation of the gluing solution CHEMIKOL-100Е :

 

Add one plastic bag to the exact amount of water while stiring with slow rotations until the desired consistent mass is achieved.

The solution should be applied with in an hour and it could not be additionaly diluted with water in order to imptove consistency.

                        

 

 

 

Gluing of EPS plannels

 

The ready glue mass is applied with a metal trowel in line and points patterns. At border apply in lines with a roller of 4-7 sm in width while the rest is covered in "patches".

In certain cases apply in 8-12 patches evenly ditributed on the pannel surface.

Please remember that properly applied gluing solution will not take more than 40% of the of the plannel surface.

 

 

             

 

After the glue is applied the pannel is sticked to the wall, next to the previously glued pannel. The pannel is continuosly pushed to the wall with a wooden board until it forms flat surface in the same plane with previously applied pannels. If any glue should apper out of the pannel surface, it should be removed.

Please remember not to push the pannel or change its position after a few minutes because the process of glue adhesivness has already began. In case of pannel misapplication the pannel should be unmounted, the glue should be removed, and the application process should be repeated.

The crack between plannels in excess of 2 mm. should be filled with polyurethane foam in order to avoid thermal bridges. It is unacceptable to fill in the cracks with glue.

 

 

 

 

A way to mount the EPS pannels by molding.

 

 

 

 

1.Thin-layer plaster                2.Grout

3.Glue CHEMIKOL-100              4.Net of fiber glass

5.EPS pannels                         6.Glue CHEMIKOL-100Е

7.Wall

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A way to mount the EPS pannels without molding.

 

 

 

 

1.Thin-layer plaster

2.Grout

3.Glue CHEMIKOL-100

4.Fiber glass net

5.EPS pannels

6. Glue CHEMIKOL-100Е

7. Protective corner

8. Wall

 

The EPS pannels should be glued horizontaly while the mismatch of verticals cracks should be kept as pattern.

 

 

 

 

Positioning of EPS pannels on corners

 

 

 

 

1. Heat insulated wall
2. EPS pannels

 

 

A way to apply termal insulation on concave corner

 

1. Thin-layer plaster
2. Grout paint PODKLAD
3. Fiber glass net
4. Glue CHEMIKOL-100
5. EPS pannels

6. Glue CHEMIKOL-100Е

7. Wall

 

 

 

 

 

 

A way to provide thermal insulation on window slat

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Wall
2. Window
3. Slat for window
4. EPS pannel
5. Glue CHEMIKOL-100Е
6. Glue CHEMIKOL-100
7. Corner with fiber glass net
8. Fiber glass net
9. Thin layer plaster

 

 

 

 

 

A way to provide thermal insulation on window slat by using kit and elastic silicone

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Wall
2. Window
3. Kit or elastic silicone
4. EPS pannels
5. Glue CHEMIKOL-100Е
6. Glue CHEMIKOL-100
7. Corner with fiber glass net
8. Fiber glass net
9. Thin layer plaster

 

 

 

 

A way to provide thermal insulation on..... under railing

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Window
2. Glue CHEMIKOL-100Е
3. Fiber glass net
4. Railing
5. Protective corner
6. Thin-layer plaster
7. Grout paint PODKLAD
8. Glue CHEMIKOL-100
9. EPS pannels
10. Glue CHEMIKOL-100Е
11. Wall
12. Silicone of stretch line

 

 

 

 

A way to provide thermal insulation on window slat in case the window is in thermaly insulated wall

 

1. Wall
2. Window
3. Kit or elastic silicone
4. Glue CHEMIKOL-100
5. EPS pannels
6. Protectve corner
7. Grout
8. Thin-layered plaster

 

 

 

Heat insulation of walls together with heat insulation of the molding

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Thin-layered plaster
2. Grout
3. Fiber glass net
4. Kit or elastic silicone
5. Molding profile
6. Streatch net
7. EPS Pannel
8. Glue CHEMIKOL-100Е
9. Wall

 

 

A way to provide thermal insulation on …. on door

 

 

 

1. Wall
2. Door
3. Kit or elastic silicone
4. Glue CHEMIKOL-100
5. Corner with fiber glass net
6. Fiber glass net
7. Grout paint PODKLAD
8. Thin-layer plaster
9. EPS pannels

 

 

 

A way to provide thermal insulation on an attick

 

 

 

 

1. Gutter and tin works
2. Thin-layred plaster
3. Grout paint PODKLAD
4. Glue CHEMIKOL-100
5. Fiber glass net
6. EPS pannels
7. Glue CHEMIKOL-100Е
8. Attick
9. Roof
10. Kit or elastic silicone, eventually streatch net

 

 

 

 

 

A way to connect thermal insulation to a roof

 

 

 

1.-2. Kit or elastic silicone, eventually streatch net

3. Thin-layer plaster

4. Grout

5. Glue CHEMIKOL-100

6. Fiber glass net

7. EPS pannels

8. Glue CHEMIKOL-100Е

9. Wall

 

 

 

After gluing the EPS pannels should form flat surface. Uneven surfaces should be leveled with sand paper or metal brush for EPS.

For buildings higher than 20 m mechanicaly reinforsing elements (plastic clutches) are mandatory.

The exact number of reinforcing elements should be according to the architetural plan, if such is not available it is accepted that the minimalamount is 4 pcs per 1 sq. m.

Mechanical reinforcing elements should be used when the walls are exposed to unfavorable succulent action by the wind or in case that the wind exceeds 20 m/sec i.e. wind pressure is above 250 kPa.

The choise of the reinforcing elements should be of suitable length. The clutch should be 5 sm inside the wall. If it is deeper the weight bearing will be negatively affected where as if it is shorter the convex above it will weaken the armature and deform the net. The applied reinforcing elements should possess quality certificate.

 

CONSTRUCTION OF ARMATURE LAYER

 

This is a protective layer that will keep the structural integrity of the EPS pannel layer and will disperse the facal pressure caused by constant heating and cooling of the surface layer.

            The armature layer should be applied not later than 3 days upon application of the EPS pannels. The work could be performed only in dry weather at temperatures between 5°С to 30°С.

Direct sunlight and strong winds should be avoided because these will speed up the process of armature layer adhesivnes. It is necessary to place protective corners on building corners and windows and doors slices.

    The construction of the armature layer should start from the corners of the building or from the dilataion channel if one exists. The CHEMIKOL-100 glue is applied upon the EPS pannels by metal trowel and the thicknes of the layer is 3 mm. After the glue is applied, the fiber glass network is dipped into it. The net should be entirely dipped into the glue layer. After that addition covering coat of glue is applied. The thicknes  of a sigle fiber glass network shold not exceed 5 mm. Please note that places of vertical or horisontal joints of networks should be at least 10 sm. Only networks featuring ITB certificated should be employed.

 

1. Thin-layered plaster
2. Grout paint
3. Fiber glass net
4. Protective corner from glass fiber net
5. Glue CHEMIKOL-100
6. EPS pannels
7. Glue CHEMIKOL-100Е
8. Wall

 

The corners on wall slices sould be reinforced by application of multiple net at angle of 45° with sizes of 25-35 sm.

 

1. Fiber glass net

2. Fiber glass net reinforcement

3. Curved fiber glass net

 

 

 

 

Intersecting joints armature of  min 10 sm

 

 

 

 

 

 

 

 

 

 

 

 

1. Fiber glass net
2. Intersecting joints  of fiber glas net
3. Glue CHEMIKOL-100
4. EPS pannels

 

In case the building walls are subject to strong mechanical conditioning double layer network shoul be used up to 2 m of building hight.

Careless application of the armature layer is unacceptable because this will affect the bulding facade therefore all uneaven surfaces should be leveled with sand paper.

 

Please remember that in case of dilatation channels or in case other material joints a kinetick energy bridge should be provided to ensure free pressure flow.

 

Building dilatition by dilataing slat

 

 

 

 

1. Fiber glass net                     6. Dilatating heat
2. Glue CHEMIKOL-100              7. Glue CHEMIKOL-100 Е
3. EPS pannels                         8. Wall
4. Grout paint PODKLAD             9. Dilatating heat insulation
5. Thin layer plaster

 

 

Building dilatation using dilatating streatch

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Fiber glass net                      

2. Glue CHEMIKOL-100                          

3. EPS pannels  

4. Grout                                              

5. Thin layer plaster

6. Corner

7. Glue CHEMIKOL-100 Е

8. Wall

9. Dilatating heat insulation

 

 

 

 

Application of thin-layer plaster

 

The application of the plaster layer is performed not earlier than 3 days after the armature layer has been applied. The surface should be dry, humidity should not exceed 5%. The workis performed at teperatures between 5°С up to  25°С.

The application surfaces should not be exposed to direct sun light becase this will result in too quick drying and consequent cracking of the plaster..

Befor application the applicaton surface should be treted with PODKLAD grout paint. The grout should be diluted with max 20 % of water. The plaster application can be started 24 hours after the grout has been applied and has dried.

Before application the plaster should be carefuly stirred with slow rotating stainless steel stirring machine.

The thin-layer plaster is applied by by stainless steel trowel at thicknes  at about the size of the granules. Decorating pattern is achieved by metal or plastic trowel depending on the plaster structure.

The essence of the thin-layer palster application is in taking one application surface at a time, adhering to the rule "wet on wet" application.

 

Improved visual effect of the facade

 

There are possibilities to diversify the look of the facade by by applying custom decoration. One of the available options is the rustic type decoration. It is achived by application of rustic profiles that are mounted in channels cut into the EPS pannels. The profiles feature special edges that will ease mounting and plaster application.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1. Thin layer plaster
2. Grout paint  PODKLAD
3. Glue CHEMIKOL-100                         
4. Fiber glass net
5. Rustic slat
6. Glue CHEMIKOL-100 Е
7. EPS pannels
8. Wall

 

Upon the plaster appliucation the outside surface of the slat could be treated with CHEMIPLAST paints.

Another option is color and texture devirsification of the plaster. This effect could be achived by application with painting stripe on the intersecting colors area. The stripe should be removed while the plaster is still freash, after the plaster has dried the stripe is glued to the edges of the already applied plaster and another color or texture plaster is applied on the neigbouring section. The stripe is removed before the plaster has dried.

 

4. TECHNICAL ACCEPTANCE

 

Partial Acceptance

 

Upon the project manager's request, the construction auditor is obliged to perform partial acceptance of the work done, including:

 

 · Acceptance of the base preparation befor the EPS pannels are applied

 · Acceptance of EPS pannels application

 · Acceptance of façade details, i.e. dilataing and termal insulation jointsof the building

 · Acceptance of the armature layer

 · Acceptance of the thin-layer plaster

 

Final Acceptance

 

In final acceptance phase the following heat insulation elements are included:

 

· How even the thin-layer plaster is

· Color consistency

· Heat insulating elements according to the architecurtal plan

· Consistency of invoices

· Accuracy of joints of different heat insulating system elements of the building

· Accyracy of mounting of additional elements i.e. gutters

 

The jointless heat insulating system for buildings (BSO), according to the construction laws is a construction work performed with the purpose of providing long term utilization of joint construction elements forming an complete entity. Please remember that during application of the System (BSO) only matrials featuring explicit permission for sales and utilization in construction are used.

 

The evaluation of the (BSO) implementation is based on the ITB document with the name “CRITERIAS FOR EVALUATION OF IMPLEMENTAION QUALITY OF THE JOINTLESS HET INSULATION SYSTEM FOR EXTERNAL BUILDING SURFACES.”, № АС 020, 1ST  OF JULY 2002.

 

WHY WE USE THE “CHEMIPLAST SYSTEM“

 

1.           because of the return on the facade repair investments

2.           to decrese enrgy waste in comparison to uninsulated buildings

3.           to solve problems with mould and water condesation

4.           to decrese labor cost for construction works

5.           to solve problems associated with wall cracks and water infiltration

6.           for coplete elimination of thermal briges

7.           for accumulation of heat in building walls

8.           for water vapour penetration and wall breathing

9.           because it provides savings

10.     because it is complete, coherent, reliable heatinsulating system from Switzerland

11.     The “CHEMIPLAST “ method ensures 40% energy savings.

 

 

The “ Belni “OOD team consist of qualified experts that can any question regarding our products, sytem or project.
        We are happy to service every customer on the teritory of Bulgaria, either directly or through our consultants, experts, and distributors for Sofia, Plovdiv, Varna, Burgas, Stara Zagora, and North Bulgaria.

 

                 “CHEMIPLAST” s.a.                              

                       

 

 

SYSTEM FOR HEAT INSULATION    № 20/… 

                       

EPS-F + 20 kg. /m3 – 4 ;5 ; 7 ; 10  cm  

8 kg “CHEMICOL” –100 E                                                        8 x                = 

1.10 m GLASS FIBRIC NETWORK – 0.160 kg./м2              1.1 х                =

0.200 kg “PRIMER SABLE”  grout for plaster                         0.2 x                =

3.0 kg. “ CHEMIPUTZ”/”GRANIPUTZ” – 2.0 mm EXT         3.0 x                =

1 m2  expanded polystirol    EPS 20-……                                1 x                   =

6 pc screwers sized      10/10                                                   6 х                   =

 

TOTAL AMOUNT OF THE SYSTEM in ………. Per 1 sq. m                       = ………

 

Note: All prices for the system are subject of negotiation with customer

 

		MASONRY / BASE
		EPS
		CHEMIKOL–100 glue
		GLASS FIBRIC NETWORK
		PRIMER SABLE - GROUT
		MIINERAL PLASTER