US1556268A - Light-weight aggregate - Google Patents

Light-weight aggregate Download PDF

Info

Publication number
US1556268A
US1556268A US353638A US35363820A US1556268A US 1556268 A US1556268 A US 1556268A US 353638 A US353638 A US 353638A US 35363820 A US35363820 A US 35363820A US 1556268 A US1556268 A US 1556268A
Authority
US
United States
Prior art keywords
clay
kiln
burning
bricks
weight aggregate
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US353638A
Inventor
George A Walkley
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US353638A priority Critical patent/US1556268A/en
Application granted granted Critical
Publication of US1556268A publication Critical patent/US1556268A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B38/00Porous mortars, concrete, artificial stone or ceramic ware; Preparation thereof
    • C04B38/009Porous or hollow ceramic granular materials, e.g. microballoons
    • CCHEMISTRY; METALLURGY
    • C04CEMENTS; CONCRETE; ARTIFICIAL STONE; CERAMICS; REFRACTORIES
    • C04BLIME, MAGNESIA; SLAG; CEMENTS; COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDING MATERIALS; ARTIFICIAL STONE; CERAMICS; REFRACTORIES; TREATMENT OF NATURAL STONE
    • C04B20/00Use of materials as fillers for mortars, concrete or artificial stone according to more than one of groups C04B14/00 - C04B18/00 and characterised by shape or grain distribution; Treatment of materials according to more than one of the groups C04B14/00 - C04B18/00 specially adapted to enhance their filling properties in mortars, concrete or artificial stone; Expanding or defibrillating materials
    • C04B20/02Treatment
    • C04B20/04Heat treatment
    • C04B20/06Expanding clay, perlite, vermiculite or like granular materials
    • C04B20/068Selection of ingredients added before or during the thermal treatment, e.g. expansion promoting agents or particle-coating materials

Definitions

  • Light-Weight Aggregates 6 Hampden and State of Massachusetts, have invented certain new and useful Improvements in. Light-Weight Aggregates, of which the following is a specification.
  • This invention relates to a process for 10 making a light weight aggregate suitable for constructlon purposes. While the process is independent Ofl the use to which the product is put, it may be pointed out that. the product is particularly advantageous as an aggregate in the making'of concrete.
  • the invention con' sists in making a plastic mixture of a suit able brick-forming material, such as .clay, with a combustible material, such as coal dust, saw dust or the like, and subsequently burning the mixture in a manner similar to brick burning, but more rapidly and with.
  • a suit able brick-forming material such as .clay
  • a combustible material such as coal dust, saw dust or the like
  • the invention is carried out as follows; the clay and combustible v material are thoroughly ground together 3 with water until the mass is of the desired plasticity, in a manner analogous to that employed in the art of brick making, as in a pug mill.
  • the plastic mass is'then preferably molded into blocks which are partialv 1y dried to a degree suflicient to permit stacking; the blocks are then stacked into a kiln and the latter fired; characterized in that the fire is forced rapidly to supply an intensedieat and maintained continuously so 40 that the emission of the water-smoke is uninterruptedk o
  • the process is characterized by its relative rapidity over the. usual methods of burning brick.
  • the usual complete dryin'g ofthe bricks in the present process is, in
  • the preliminary step of the process consists in the thorough mixture of the materials to be burned.
  • the major element of this mixture is a Suitable clay, and various clays may be used. It has been found that a particular kind of clay, te(:h so nically known as soft shale, is especially adapted for this process, but the processv is not confined to the use of this specific kind of clay although it is at present preferred.
  • coal is particularly suitable,- w en in finely subdivided form, as it readily lends itself to admixture with the clay and may be distributed therethrough with substantial uniformity.
  • coal dust eitherof anthracite or bituminous coal, may be used although a mixture of anthracite with a long flame bituminous coal has proved in practice particularly satisfactory.
  • the proportions of the clay and combustible elements may be varied within wide limits, as desired, to efi'ect varyin degrees of porosity and thus control the ensity of the product. Exact proportions -of the two main ingredients are, therefore, not essential to successin'practicing the-process. In actual praotice, these two ingredients are seldom measured with an degree of, accuracy, but it maybestated that, with the articular combustible and the particular 'nd of clay mentioned, a suitable light weight aggregate is obtained by a mixtureof nine partsfof clay .to one part of coal'dust.
  • a suitable flux such as a mixtureof sulphur andborax for example.
  • this' isapplied asa sprinkling to each batch as it is made u
  • a batch weighing approximately 2000 pounds will consist'of about 1800 pounds of clay,
  • the mixing of the constituents described may be accomplished in any suitable manner, They may, however, be mixed to ad vantage in a manner analogous to that employed in the art of brick making. as by placing the constituents in a pug mill which operates to thoroughly grind and mix the materials. At this time, water is added to the mixture until it is rendered of sutficient plasticity. These steps are substantially like those usually employed in brick making.
  • the mass having been brought to the desired degree of plasticity, is then preferably molded into blocks or bricks, preliminary to the step of burning.
  • the purpose of this step is merely to facilitate burning. That is, the question of the final size and shape of the burned productis not ordinarily 'of particular importance, but it is convenient to mold the mass into bricks so that they can readily be stacked into kiln form for the step of burning.
  • the burning of the kiln is generally analogous to the burning of a kiln of ordinary bricks with the exception that the firing throughout is more rapid than in ordinary brick burning.
  • the fuel may be chosen as desired except that a fuel which will quick- 1y yield an intense heat and lend itself to forcing is preferable. Contrasted with orc inary brick burning, the fire is forced throughout to a relatively intense heat, and followed up to prevent diminution of the heat.
  • the purpose of firing in this manner is to quickly cause the generation of gases in the plastic bricks and to continue the generation and emission of gases from the bricks without interruption until exhaustion of the sources of gas.
  • the degree of heat employed is gauged to effect the results just named. Generally, the bricks are heated from 17O0 to 1900 Fahr.
  • the gases which are commonly termed water smoke, are forced from the bricks in a continuous manner by forcing the fires for this purpose.
  • the characteristic feature of the step of burning is the rapid and intense initial heat and the forcing and following'up of the fire to'secure complete emission of the ases.
  • the time of rapid and intense firing 1s gauged by watching the emission of the water-smoke. For example, at the start of the step of burning the operator forces his fire to higher and higher temperatures until he observes the emission of the water-smoke.
  • the brick is burned to a strong tough body of porous density so as to be extremely light as compared to ordinary brick.
  • the bricks formed by the present process will generally be found to be swelled to alarger size than the original molded blocks and with rounded or bulging sides. In other words, they have the appearance of being blown up like raised and baked bread.
  • the bricks when thus finished may be used as ordinary bricks, but may also be broken up into pieces of the desired size to serve as an aggregate of concrete.
  • the advantages of a strong light weight aggregate for such purpose is apparent.
  • What I claim is- 1.
  • the process of making a light weight aggregate which consists in mixing clay and finely divided fuel into a plastic mass, forming the mass into separate units, partially drying such units sufficiently for stacking into a kiln, stacking the units into a kiln, and in then rapidly firing the kiln with an intense heat.

Description

Patented Get. 6, 1925.
UNITEDLSTATES PATENT OFFICE.
' No Drawing.
To all whom it may concern: I
Be it known that I, GEORGE A. WALKLEY, a citizen of the United States of America,
residing at Westfield, in the county of.
6 Hampden and State of Massachusetts, have invented certain new and useful Improvements in. Light-Weight Aggregates, of which the following is a specification. This invention relates to a process for 10 making a light weight aggregate suitable for constructlon purposes. While the process is independent Ofl the use to which the product is put, it may be pointed out that. the product is particularly advantageous as an aggregate in the making'of concrete.
Broadly. considered, the invention con' sists in making a plastic mixture of a suit able brick-forming material, such as .clay, with a combustible material, such as coal dust, saw dust or the like, and subsequently burning the mixture in a manner similar to brick burning, but more rapidly and with.
sufiicient heat'to harden the material into a strong compact form of porous density, but
not with high enough heat to drawthe material together into a vitrified solid mass.
In a general way, the invention is carried out as follows; the clay and combustible v material are thoroughly ground together 3 with water until the mass is of the desired plasticity, in a manner analogous to that employed in the art of brick making, as in a pug mill. The plastic mass is'then preferably molded into blocks which are partialv 1y dried to a degree suflicient to permit stacking; the blocks are then stacked into a kiln and the latter fired; characterized in that the fire is forced rapidly to supply an intensedieat and maintained continuously so 40 that the emission of the water-smoke is uninterruptedk o The process is characterized by its relative rapidity over the. usual methods of burning brick. The usual complete dryin'g ofthe bricks in the present process is, in
. practical efi'ect, omitted as only partial drying of'relatively short duration is employed and for'the purpose specified. The actual enoaen a. WALKLEY, orwasrrmnn, MASSACHUSETTS LIGHT-WEIGHT AGGREGATE.
Application filed January 23', 1920. Serial- No. 853,638.
burning process is also comparatively rapid, I the fire being rushed from the start to the end of this step of the process. 1
Other features of the mvention'will apv pear in thefollowing more detailed description.
. The preliminary step of the process consists in the thorough mixture of the materials to be burned. Broadly, the major element of this mixture is a Suitable clay, and various clays may be used. It has been found that a particular kind of clay, te(:h so nically known as soft shale, is especially adapted for this process, but the processv is not confined to the use of this specific kind of clay although it is at present preferred.
For the combustible element of the mixture, various materials may be em loyed, but coal is particularly suitable,- w en in finely subdivided form, as it readily lends itself to admixture with the clay and may be distributed therethrough with substantial uniformity. Preferably, coal dust, eitherof anthracite or bituminous coal, may be used although a mixture of anthracite with a long flame bituminous coal has proved in practice particularly satisfactory.
The proportions of the clay and combustible elements may be varied within wide limits, as desired, to efi'ect varyin degrees of porosity and thus control the ensity of the product. Exact proportions -of the two main ingredients are, therefore, not essential to successin'practicing the-process. In actual praotice, these two ingredients are seldom measured with an degree of, accuracy, but it maybestated that, with the articular combustible and the particular 'nd of clay mentioned, a suitable light weight aggregate is obtained by a mixtureof nine partsfof clay .to one part of coal'dust.
Preferably, although not necessarily, there is added to the main elements described a suitable flux, such as a mixtureof sulphur andborax for example. Generally, this'isapplied asa sprinkling to each batch as it is made u For example, a batch weighing approximately 2000 pounds will consist'of about 1800 pounds of clay,
200 pounds of coal dust and a handful of sulphur and a handful of borax.
The mixing of the constituents described may be accomplished in any suitable manner, They may, however, be mixed to ad vantage in a manner analogous to that employed in the art of brick making. as by placing the constituents in a pug mill which operates to thoroughly grind and mix the materials. At this time, water is added to the mixture until it is rendered of sutficient plasticity. These steps are substantially like those usually employed in brick making.
The mass, having been brought to the desired degree of plasticity, is then preferably molded into blocks or bricks, preliminary to the step of burning. The purpose of this step is merely to facilitate burning. That is, the question of the final size and shape of the burned productis not ordinarily 'of particular importance, but it is convenient to mold the mass into bricks so that they can readily be stacked into kiln form for the step of burning.
Before the bricks. are burned, they. are partially dried, as distinguished from complete drying customary in the preparation of ordinary bricks for burning in a kiln. The purpose of this step is merely to dry the bricks to a degree sufficient to permit them to be stacked into a kiln.
The burning of the kiln is generally analogous to the burning of a kiln of ordinary bricks with the exception that the firing throughout is more rapid than in ordinary brick burning. The fuel may be chosen as desired except that a fuel which will quick- 1y yield an intense heat and lend itself to forcing is preferable. Contrasted with orc inary brick burning, the fire is forced throughout to a relatively intense heat, and followed up to prevent diminution of the heat. The purpose of firing in this manner is to quickly cause the generation of gases in the plastic bricks and to continue the generation and emission of gases from the bricks without interruption until exhaustion of the sources of gas. The degree of heat employed is gauged to effect the results just named. Generally, the bricks are heated from 17O0 to 1900 Fahr. The gases, which are commonly termed water smoke, are forced from the bricks in a continuous manner by forcing the fires for this purpose. The characteristic feature of the step of burning is the rapid and intense initial heat and the forcing and following'up of the fire to'secure complete emission of the ases. The time of rapid and intense firing 1s gauged by watching the emission of the water-smoke. For example, at the start of the step of burning the operator forces his fire to higher and higher temperatures until he observes the emission of the water-smoke.
He then continues forcing the fire :a. a never allows it to slacken until he is assured from the cessation of water-smoke, even under intense heat, that the exhaustion of the sources of gas is complete. After the emission of water-smoke has ceased, the burning may be continued for a short time, if desired, but care should be taken not to burn the bricks into a vitrified solid mass. A higher degree of heat than 2000 Fahr. or a continued heating after the Water-smoke has been expelled from the brick will generally cause vitrification of the brick into a solid dense mass which it is desired to avoid in this process.
By carrying out the present process as described, it will be found that the brick is burned to a strong tough body of porous density so as to be extremely light as compared to ordinary brick. The bricks formed by the present process will generally be found to be swelled to alarger size than the original molded blocks and with rounded or bulging sides. In other words, they have the appearance of being blown up like raised and baked bread.
The bricks when thus finished may be used as ordinary bricks, but may also be broken up into pieces of the desired size to serve as an aggregate of concrete. The advantages of a strong light weight aggregate for such purpose is apparent.
What I claim is- 1. The process of making a light weight aggregate, which consists in mixing clay and finely divided fuel into a plastic mass, forming the mass into separate units, partially drying such units sufficiently for stacking into a kiln, stacking the units into a kiln, and in then rapidly firing the kiln with an intense heat.
2. The process of making a light weight aggregate which consists in mixing clay and finely divided fuel into a plastic mass, forming the mass into separate units, partially drying such units suificientl and in then rapidly firing the kiln to a temperature approximately between 1700 Fahr. and 1900 Fahr.
3. The process of making a light weight aggregate, which consists in mixing clay and finely divided fuel into a plastic mass, forming the mass into separate units, partially drying such units sufiiciently for stacking into a kiln, stacking the units into a kiln, in then rapidly firing the kiln to a temperature approximately between 1700 Fahr. and 1900 Fahn, and continuing'said firing of the kiln until all apparent watersmoke has been driven off.
4. The process of making light weight aggregate, which consists in mixing clay and finely divided coal into a plastic mass in approximate proportions of nine parts for stackinginto a kiln, stacking the units into a kiln,
of clay and one part of coal and subjecting the same to a temperature of approximatel between 1700 and 1900 Fahr. for a. su ficient length of time to harden the same into a porous, burned clay product, but not sufiicient to vitrify the same into a solid non-porous structure.
5. 'IIhe process of making light weight aggregate, which consists in mixing clay 1 and finelydiirided coal into a. plastic mass in approximate proportions of nine parts of clay and one part of coa1,'together with traces of sulphur and borax added as a flux, and subjecting the same to a temperature of approximately between 1700 and 1900 Fahrt for a sufiicient length of time to harden the same into a porous, burned clay product, but not s uflicient to vitrify the same into a solid non-porous structure.-
GEORGE A/WALKLEY.
US353638A 1920-01-23 1920-01-23 Light-weight aggregate Expired - Lifetime US1556268A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US353638A US1556268A (en) 1920-01-23 1920-01-23 Light-weight aggregate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US353638A US1556268A (en) 1920-01-23 1920-01-23 Light-weight aggregate

Publications (1)

Publication Number Publication Date
US1556268A true US1556268A (en) 1925-10-06

Family

ID=23389945

Family Applications (1)

Application Number Title Priority Date Filing Date
US353638A Expired - Lifetime US1556268A (en) 1920-01-23 1920-01-23 Light-weight aggregate

Country Status (1)

Country Link
US (1) US1556268A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2493763A (en) * 1947-10-01 1950-01-10 Theron A Klinefelter Method of producing lightweight aggregate from clay

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2493763A (en) * 1947-10-01 1950-01-10 Theron A Klinefelter Method of producing lightweight aggregate from clay

Similar Documents

Publication Publication Date Title
US2543987A (en) Method of producing porous, lightweight, burned argillaceous material
US3886244A (en) Method for producing bricks from red mud
US2799074A (en) qarloni
US1556268A (en) Light-weight aggregate
RU2387617C1 (en) Method for production of raw materials mix for ash-ceramic wall materials
US2526073A (en) Ceramic method and composition
US1761108A (en) Method for the manufacture of cellular building materials
US1583521A (en) Process of making vesicular products
US1992916A (en) Permeable ceramic material and process of making the same
US3026189A (en) Preparation of fuel briquettes
RU2083528C1 (en) Light-weight refractory material, and process for manufacturing thereof
US2122288A (en) Process of making cellular refractory bodies
KR960011328B1 (en) Process for preparing lightweight aggregate material using fly-ash
US1856929A (en) Lightweight building materials
US1898839A (en) Process of manufacturing porous silica ware
BG61566B1 (en) Method fot manufacture of building materials and ceramic massfor manufacturing them
US1968052A (en) Low thermal conductivity building unit and method of making the same
US2224459A (en) Method of making light weight refractory brick
US2670298A (en) Process of manufacturing a cellular material
SU1712339A1 (en) Method of producing ceramic bricks from coal dressing waste
SU1204596A1 (en) Raw mixture for producing heat-insulating material
RU2031884C1 (en) Raw mixture for preparing mainly facing material, and a method of its preparing
JPH02129082A (en) Production of hard formed material of fly ash
US1307548A (en) Heat-insulating composition and articles made therefrom
US1283754A (en) Process of making a heat-insulating composition.