DE1720163A1 - insulating material - Google Patents

Description

B F S C H R E I B U N G Insulating material The present invention relates to an insulating material made from @ranulated @ cork and / or other substances of low.

Volume weight and a thermoplastic binder is produced.

Usually it becomes blocks, tiles, slabs, bricks or after If necessary, shaped fora pieces are pressed and for insulation for cold and warmth, used against sound and the propagation of vibrations. If cork is used is, this is @ usually after suitable preheating in the so-called expanded Forn. used, and it can partly be replaced by other substances of low density and thus a high icolation effect can be replaced. Usually as Binle @ ittel @i @@@ @eirko @@@@@@@@@@@@ @@@@@@@@@@, which adheres well to the cork or other fabrics and with the correct dosage, insulating panels result in relatively little moisture to pick up. Disadvantages are the unpleasant smell during manufacture and the Workmanship, especially in warm weather, and in the brittleness of the panels that leads to losses during storage, transport and processing.

In order to avoid these troubles, the resins are sometimes used of the cork used instead of pitch for binding. These so-called "back cork" panels are odorless, but they have the serious disadvantage that they have a lot of moisture absorb (for the determination according to DIN 1996 / U 56 about 75-80% water, compared to about 35% water absorption with pitch-bound cork panels), which means that their insulating effect: drops sharply.

@userden they are more expensive due to the H-restellvngsprozess, the in some areas can easily lead to incidents A. Their thermoplastic binders Attempts have been made, for example, petroleum bitumen, but have not proven to be general can enforce. Their main disadvantage is that they @it consider them the temperatures admissible for production must be set too soft and not result in sufficiently strong and heat-stable plates, especially if during manufacture the tape agent was only slightly overdosed. There are also plates with Soft, i.e. oily 1-volume agents are always less suitable for cold room insulation as such with an oil-free binder.

E @ has now been found that an I oliermaterial improved with Can produce figurines if the binding @ ittel from a residue fraction a viscosity break process of mineral oils or @ neral @ oil fractions @. Viscosity breaking is to be understood as a mild thermal treatment of viscous heavier mineral oil fractions with the aim of reducing the viscosity, while in the course of this process as few light products as possible, such as gasoline, be shaped. The processing residues are suitable as the starting material of heavier fractions, so-called "long residue" for the recovery of middle distillates visbreaking or a similar process. Likewise The residues of the thermal A. building of mineral oil fractions of the Lubricating oil area in further @ nne, which for the production of @@ tteldestillaten and / or Low viscosity lubricating oil fractions are treated; continue the accordingly treated residues from ethylene cracking, for example according to the K @ llogg process.

The binder according to the invention is made from these residues Distillation produced in vacuo, expediently in the course of fractionation of the products. The oil components are driven off until the residue has a softening point R + K between about 95 ° and 110 ° C. The penetration value at 25 ° C should not exceed Be 2.

A residue with a softening point R K of 95 is preferred - 105 ° C and a penetration value at 25 ° C of 1 or less and an @ Conradson value of 40 or more.

The binder can be used in the same way as coal tar pitch be used, i.e. crushed at normal temperature, dea in the ground state granulated cork and / or other material with a low density ratio from 25 to a maximum of 50% by weight (based on the binder-free material) added, Heated to 80 - 120 ° C and pressed into sheets etc. in the heat. More advantageous but it can in the liquid state with a viscosity of about 50-80 cSt on the granulated cork and / or other material of low density can be sprayed on. In contrast to bad luck, there is little risk of hardening and. Coke formation in hot storage and spraying. In each case its vapors are in comparison Unfortunately, even in the heat without corrosive effects on the S. chleimhåutea eyes and the respiratory tract.

The insulating material according to the invention offers compared to comparable, Insulating material made with coal tar pitch with the same packing density the other advantages of greater strength and dimensional stability at higher ones Temperatures.

In contrast to petroleum bitumen, the binder is made with coal tar pitch Can be mixed in any ratio and can therefore be used in a mixture with pitch. The miscibility also offers the advantage that the insulating material according to the invention for example, with both tar, respectively. pitch and bituminous others Products can be processed together without the risk of segregation, such as adhesives, Roofing felt, etc.

Example: Bine fraction from @ ittelost crude oil with boiling range above 350 ° C (so-called "long residve") was de @ viscosity breaking process at an operating temperature of 466 ° and a "Re-Cycle" temperature of 476 °: 10.4% Gases and middle distillates and 67.7% distillates from the boiling range above 350 ° C obtained. The residue was "flash" distilled in vacuo until it had a Had a softening point R + K of iOloC and a penetration value / 2500 of 0-1; the Conradson value was 40-41. The yield was 19.5% based on the starting product.

With this binder, cork panels were produced in a known manner, d. h it was on expanded cork grist of 800C in a weight ratio of approx. 50 cork 50 50 binding agent, the latter sprayed on at 240 ° C, in a free-fall mixer crushed and then pressed. With this inventive insulating material (I) @was compared to another (II) that under exactly the same conditions - also in the processing viscosity of the binder - was made, but with commercially available Coal pitch with a softening point of R @ K 83 ° C and a penetration value of 0-1 25 ° C. to test for tensile strength, specimens of 40 50 mm were used in the usual Roofing felt tensile strength machine tested.

The specimens I cracked at an average load of 28.0 kg, specimen II already weighs 21.6 kg.

To test the strength at -5 ° C, the flexural strength was im Haake consistor meter measured. The test bars had a cross-section of about 40 x 15 mm, the distance between the supports was 100 liT1. The comparison gave the average values : Samples I samples II load kg 1.206 1.206 bending stress γ = kg / cm2 4.05 4.30 route b.z. Fracture, mm 5.5 2.3 eit b.z. Break, sec. 90 16 The corresponding one The test was also carried out at room temperature and under lower bending stresses.

Cenessen was the average time to achieve a Deflection of 3 mm.

Samples I Samples II Load, kg 0.557 0.557 Flexural stress kg / cm2 1.25 1.25 eit sec. 1800 552 load kg 0.957 0.957 bending stress kg / cm2 2.01 1.93 Time sec. 378 46 The dimensional stability under heat was compared using test specimens of 60 x 40 x 15 mm, placed on edge, were kept at 105 ° C. Samples I inflated noticeably within 30 minutes, but then remained unchanged for 5 1/2 hours; samples II disintegrated within 20 minutes.

The water absorption was determined according to DIN 1996 / U 56 and resulted in i: n Average for samples I 35% by weight, for samples II 35.6% by weight of water.

Claims (1)

P A T E N T A N S P R Ü C H F. 1. Insulating material, such as plates or molded pieces, consisting of crushed Cork and / or other substances of low density and a binder, thereby characterized in that the binder entirely or partially from a residue fraction consists of a viscosity breaking process of liner oils or mineral oil fractions. 2. Insulating material according to claim 1, characterized in that the Binder in whole or in part from a residue fraction with a softening point R + K @ between 95 ° and 110 ° C, a penetration / 250C of 2 or less. 5. insulating material according to claim 1 to 3, characterized in that the binder wholly or partly from a residue fraction with a softening point R + K of 95-1050C, a penetration / 250C of 1 or less and a Conradson value consists of over 40.