DE221461C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

CLASS 80 h. GROUP

The object of the present invention is a method for producing a ready-to-use one and dispatchable magnesia cement.

Had the use of magnesia cement. so far various difficulties in the Put away.

It was placed on a solution of magnesium chloride by the direct action of magnesia and allowed this mixture to solidify. For this purpose one had to use the individual substances, especially the water-rich and very hygroscopic crystalline magnesium chloride or its aqueous solution according to the point of use of the cement and process there as quickly as possible. Apart from the useless increase in freight costs caused by this had to depend on the water content of the solution, the mixing ratios, which were also dependent on the humidity and temperature of the air, for be determined in each individual case. It was up to us to weigh up these relationships by ordinary henchmen who worked schematically. Among these unfavorable Conditions resulted in products of uneven and inferior quality. The cement did not prove to be weatherproof and its surface soon became splintered and cracked or puffed up and became softer instead of harder. It is therefore also the magnesia cement known as screed flooring in construction technology more than in discredit. Today one is limited to the magnesia cement only for work to use which are not carried out in the open air and the bad weather does not are exposed.

According to the present method, a certain compound of magnesia and magnesium chloride, magnesium oxychloride, consisting of equal molecules of Mg O and Mg · Cl _{2 is} assumed, this compound is dehydrated and magnesium oxide is added to it in a certain ratio. The whole thing is married well. The compound produced in this way can be produced in the same proportions evenly in the cement factory, stored and sent packed like any cement and forms an independent product, a powdery mass that only needs to be mixed with water on the spot and immediately used Preparation of the cement mortar represents the necessary mixture.

Known production methods can be used to produce the magnesium oxychloride. Bringing Mg O possible only partially calcified immediately after the calcification with vapors of anhydrous H Cl into contact, or is allowed to MgCl ₂ in the open air, so that it is partially decomposed. Or you can start with Mg O and Mg Cl ₂ , whereby the latter can also be partially replaced by H Cl and Mg O by Mg CO ₃ . One uses z. B. at

ι MgO 40.36

and Mg Cl ₂ solution of 33.6 ° Be.,

ie Mg Cl ₂ + 6H ₂ 0 203.38

5H ₂ O .. / TT 90.10

333.84 ·

Or you take:

2 MgO 80.72

and H Cl of 18 ° Be., ie 28.81 per- '

cent (2, H Cl + 10H ₂ O) .253.12

333.84 · Or one applies:.

ι MgO. 40.36

ι MgCOs ...... 84.36

and HCl of 18 ° Be., ie 28.81 per

cent (2 H Cl + 10 H ₂ OJ 253.12

377.84 minus the released CO ₂ 44.00

333.84-To get this mixture one must

keep it moving continuously until it becomes evenly hard. It is recommended that Heat the mixture to speed up the reaction and prevent the Oxide, while sinking to the bottom, is mixed with a small quantity of magnesium chloride connects and leaves part of the solution free.

The total weight of these three processes represents the hydrous oxychloride of the formula dar:

Mg ₂ O Cl ₂ + ττ H ₂ O.

Here are the strengths of the solution of the chloride and also of acid, as well as the impurities of acid, chloride, des Oxyds or carbonates to be considered.

The costs of production are extremely small in these cases, because the costs of calcification of the resulting product partly by saving the concentration of the magnesium chloride solution or the concentration of hydrochloric acid.

The hydrous oxychloride is calcified and the anhydrous oxychloride is obtained

Mg ₂ OCl ₂ + ττΗ ₂ Ο. 333.84

From water 10 H ₂ O 180.20

That leaves Mg ₂ OCl ₂ + H ₂ O 153.64.

It is now sufficient to combine this quantity of the ground end product with a certain amount Mix number of χ times 40.36 parts molecular weight of magnesia, depending on the density, resistance and hardness of the cement you want to preserve. The formulas given above always relate to substances in their pure state.

The following mixtures have proven to be useful:

a) Mg ₂ OCl ₂ ; H ₂ O + 7 MgO (called Litosilo);

b) Mg ₂ OCl ₂ ; H ₂ O + 3 MgO (called Ortoclor).

The magnesia cements can be used in the pure state or with sawdust, coloring earth or put on the market mixed with asbestos or other mineral waste will.

They can be used immediately after they are made or stored for a longer period of time and be shipped. If you mix them with water, you get a product that can be put into work immediately, just like that which is only on the Point of use is obtained from the individual materials in statu nascendi.

The magnesia cement obtained in this way can be mixed with mineral waste or alone, e.g. B. for cladding cisterns, terraces made of reinforced cement, as attic covering, Wall and floor covering and the like are used; mixed with sawdust, it serves as a substitute for the Wood, e.g. B. as a perfect, incombustible, impermeable and inflexible covering the ceilings and the inner walls of the ships.

It can also be used to great advantage in those constructions that have to withstand large shocks or vibrations, such as B. on warships, fixed or movable towers of casemate batteries and armored ships. Further he can either alone or for technical purposes in the construction of parapets in connection with iron supports such as bars, expanded sheet metal, etc., so that you get a product that is not only impermeable but also inflexible, however is still very elastic. ■

Claims (1)

Patent claim: Method of making a ready-to-use and dispatchable magnesia cement, characterized in that magnesium oxychloride, consisting of the same molecules of magnesium oxide and magnesium chloride, dehydrated, with an excess Amount of magnesium oxide is added and ground.