US1340181A - Fibered asphalt - Google Patents

Fibered asphalt Download PDF

Info

Publication number
US1340181A
US1340181A US268582A US26858218A US1340181A US 1340181 A US1340181 A US 1340181A US 268582 A US268582 A US 268582A US 26858218 A US26858218 A US 26858218A US 1340181 A US1340181 A US 1340181A
Authority
US
United States
Prior art keywords
asphalt
fiber
fibers
fibered
product
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
US268582A
Inventor
Gershon L Oliensis
Jr John Strother Miller
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.)
BARBER ASPHALT PAVING Co
Original Assignee
BARBER ASPHALT PAVING CO
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 BARBER ASPHALT PAVING CO filed Critical BARBER ASPHALT PAVING CO
Priority to US268582A priority Critical patent/US1340181A/en
Application granted granted Critical
Publication of US1340181A publication Critical patent/US1340181A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C08ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
    • C08LCOMPOSITIONS OF MACROMOLECULAR COMPOUNDS
    • C08L95/00Compositions of bituminous materials, e.g. asphalt, tar, pitch

Definitions

  • This asphalt product which our invention produces has the advantage of being liquefiable by heat so that when being fabricated for industrial purposes, as for instance, prepared roofing, it may be poured while liquid, this being a very desirable quality.
  • ⁇ Ve take a dry mass "of felted fibers, such as a piece of roofing felt, and mmpletely disintegrate the same with entire separation of all of the original fibers. It is convenient to accomplish this by the attrition of a mass of roofing felt upon the surface of a fine wire mesh screen, in which case the screen acts both to comminute or grate the dry fibrous mass into its component fibers, and also to prevent the discharge of any portions of fiber not completely disintegrated, and, therefore, not capable of passing between the meshes of the screen. For this purpose, we find that a wire mesh screen having some thirty meshes to the inch will suflice for the proper reduction of roofing felt to a condition of completely separated individual fibers.
  • the separatedfibers are then slowly and evenly distributed upon the surface of the melted asphalt, and incorporated therewith by moderate stirring or agitation of the same. WVe have discovered that by reason of the complete separation of the fibers, which we have secured, we are able-by incor porating only a small percentage of fiber to the asphalt, to disperse the same so evenly throughout the asphalt as to obtain the desired increase in cohesion of the asphalt by the employment of a very much smaller percentage of fiber than has heretofore been deemed necessary for a similar purpose, and this small percentage of fiber has the advantage of yielding a product which has not lost its capacity for liquefaction.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Materials Engineering (AREA)
  • Structural Engineering (AREA)
  • Health & Medical Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Medicinal Chemistry (AREA)
  • Polymers & Plastics (AREA)
  • Organic Chemistry (AREA)
  • Working-Up Tar And Pitch (AREA)

Description

UNITED sTAfrEs PATENT OFFICE.
GEPJQHON L. OLIIENSIS, 0F PHILADELPhL-l, PENNSYLVANIA, AND JOHN STROTHEB MILLER, JR, OF RAHWAY, NEW JERSEY, ASSIGNORS TO THE BARBER ASPHALT PAVING COMPANY, OF PHILADELPI-ITi-P,
PENNSYLVANIA, A. CORPORATION OF Patented May 18, 1920.
PENNSYLVM'IA. I FIRE-FED ASPHALT.
1,340,181. Specification of Letters Patent.-
No Drawing.
Y to its stability. Various methods of doing this are well'known in the art. -()ur invention relates to the accomplishment of this end by the homeogeneous incorporation with the asphalt of completely separated fibers, producing what may be called fibered asphalt.
Efforts have heretofore been made to accomplish this end, by adding masses of fibers t0 asphalt, but, so far as we are aware, the methods heretofore in use have, because of the fact that the individual fibers are not completely separated, required the incorporation of a very considerable percentage of fiber to obtain the desired increase in cohesiveness in the asphalt, and this considerable proportion of fibrous material thus added, has consequently resulted in a product not liquefiable by heat.
This asphalt product which our invention produces. has the advantage of being liquefiable by heat so that when being fabricated for industrial purposes, as for instance, prepared roofing, it may be poured while liquid, this being a very desirable quality.
lVe accomplish this result by employing dry fibrous material and completely disintegrating the same before it is a-dded'to the asphalt. The dry disintegrated fibers are added slowly to melted asphalt, and incorporated therewith in such a way as to effect perfectly even distribution of the fibers through the asphalt with production of a homogeneous mass of fibered asphalt which has the required cohesion without having lost its capacity for liquefaction.
In practising our invention, we take a suitable asphalt, either natural or artificial, and with or without a suitable flux. The asphalt is melted, requiring for this purpose a temperature of between 300 and 450 Application filed December 27, 1918. Serial No. 268,582.
d=-grees F. \Ve take a dry mass "of felted fibers, such as a piece of roofing felt, and mmpletely disintegrate the same with entire separation of all of the original fibers. It is convenient to accomplish this by the attrition of a mass of roofing felt upon the surface of a fine wire mesh screen, in which case the screen acts both to comminute or grate the dry fibrous mass into its component fibers, and also to prevent the discharge of any portions of fiber not completely disintegrated, and, therefore, not capable of passing between the meshes of the screen. For this purpose, we find that a wire mesh screen having some thirty meshes to the inch will suflice for the proper reduction of roofing felt to a condition of completely separated individual fibers.
The separatedfibers are then slowly and evenly distributed upon the surface of the melted asphalt, and incorporated therewith by moderate stirring or agitation of the same. WVe have discovered that by reason of the complete separation of the fibers, which we have secured, we are able-by incor porating only a small percentage of fiber to the asphalt, to disperse the same so evenly throughout the asphalt as to obtain the desired increase in cohesion of the asphalt by the employment of a very much smaller percentage of fiber than has heretofore been deemed necessary for a similar purpose, and this small percentage of fiber has the advantage of yielding a product which has not lost its capacity for liquefaction.
Thus we find that by adding to melted fiuxed Trinidad Lake asphalt from three to four per cent. of dry fiber, separated as described, we obtain fibered asphalt, highly useful in the roofing and other arts and capable of being fabricated by pouring the material while melted. We would point out that the accomplishment of the even incorporation of the fiber with theasphalt in percentages sufficiently small to accomplish the desired result, without makinga' nonliquefiable product has a two-fold advantage: First the superior utility of the product for many industrial purposes. For the conjunction with regulation of rapidity of the flow. Furthermore, the property of liquefaction of fibered asphalt permits of molding the product by pouring the molten material into molds of various shapes.
Second, the securing of a more perfectly homogeneous product, for, in processes;
which require in order to secure the desired cohesion the addition of more fiber than can be added without loss of the capacity of the asphalt to melt, it is evident that during the latter part of the process of adding the fiber to the asphalt, the latter will have lost its liquid form, and the subsequent addition of fiber must be made to it while solid or semi-solid. In all previous oper-" ations for addin fiber to asphalt of which we have knowle ge, this has been the case. Efiorts have been made to evenly distribute fiber throughout solid or semi-solid asphalt, but it is our belief that this cannot be perfectly; accomplished, but that under such circumstances the fibers pass into the asphalt in bunches or tangled masses, and so remain notwithstanding all efforts to subsequently break up these bunches by .working or kneading the asphalt. As a consequence, the resulting product is not completely homogeneous, contains a larger quantity of fiber than is either necessary or desirable for theaccomplishment of the de-' sired result, with the further disadvantage of producing a non-waterproof product, for
considerable masses of fiber when added to asphalt retain their capacity for absorbing and retaining water, and unless the dispersion of the separated fibers through the asphalt is quite complete, the resulting asphalt is'not wholly water-proof. When the fibers are not completely separated, and
reach a considerablevolume, say twenty per cent; in weight, the asphalt is notably lacking in water-proofing qualities.
Having thus described our invention, We
l Fibered asphalt consisting of asphalt having completely separated individual cohesion but not sufficient to render the asphalt non-liquefiable.
In testimony whereof, we have hereunto signed our names at Zanesville, Ohio, this 10th day of December, 1918.
GER-SHON L. OLIEN'SIS. JOHN STROTHER MILLER, JR.
\Vitnesses as to Gershon L. Oliensi's: W. E. OLIENSIS, p GLADYS M. BOWEN.
Witnesses as to John Strother Miller, J r.:
JAMES H. BELL, E. L. -FULLERTON.
US268582A 1918-12-27 1918-12-27 Fibered asphalt Expired - Lifetime US1340181A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US268582A US1340181A (en) 1918-12-27 1918-12-27 Fibered asphalt

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US268582A US1340181A (en) 1918-12-27 1918-12-27 Fibered asphalt

Publications (1)

Publication Number Publication Date
US1340181A true US1340181A (en) 1920-05-18

Family

ID=23023618

Family Applications (1)

Application Number Title Priority Date Filing Date
US268582A Expired - Lifetime US1340181A (en) 1918-12-27 1918-12-27 Fibered asphalt

Country Status (1)

Country Link
US (1) US1340181A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3617329A (en) * 1967-07-03 1971-11-02 Myron F Goff Method for spray-coating a roof with a composition containing liquid asphalt and fluffed asbestos fiber

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3617329A (en) * 1967-07-03 1971-11-02 Myron F Goff Method for spray-coating a roof with a composition containing liquid asphalt and fluffed asbestos fiber

Similar Documents

Publication Publication Date Title
DE1962625C3 (en) Method of making an insulating lining
DE3334118A1 (en) Filling material, process for the production thereof and use of such filling material
US1340181A (en) Fibered asphalt
US2023675A (en) Fibrous composition
DE3524693C1 (en) Process for the production of components from combustion residues
US2207894A (en) Alcohol fuel of the nitrocellulosegel type
JPH08333152A (en) Cement composition and auxiliary for its extrusion molding
US1755500A (en) Battery-box-container composition and method of making same
US2615806A (en) Method of making rigid type felted mineral wool product
US1355406A (en) Cement structural material
DE829420C (en) Process for the production of porous ceramic bodies
US2022311A (en) Preparation of pulps containing hard binder substances
US857287A (en) Method of preparing fuel briquets.
US2745762A (en) Asphaltic waterproof adhesive
US1169079A (en) Insulating-board and method of producing the same.
US1265108A (en) Method of making a hard-rubber substitute and the product thereof.
US2000582A (en) Composition for storage battery containers
US1225443A (en) Heat-insulating board composed of cereal straw.
US2075751A (en) Method of reclaiming waste material for reuse and products made thereby
US1071792A (en) Composition containing pitch.
US830086A (en) Artificial fuel.
US760183A (en) Process of manufacturing artificial stone.
US584105A (en) Artificial fuel
US756189A (en) Artificial fuel and process of producing same.
US1674287A (en) Molded plastic composition article and method of producing the same