Splice for use during the thermal stabilization of a flat multifilament band of an acrylic fibrous material comprising at least two segments

Abstract
An improved splice is provided which is useful in joining segments of a substantially flat band (e.g., a flat tow) of an acrylic fibrous material in an end to end relationship. A fabric surrounds and is sewn to an end of each band segment and extends beyond the end of the band to form a fabric extension. A pair of fabric extensions are sewn in an overlapping opposing relationship in the absence of any substantial overlap of the acrylic fibrous material of each band segment within the splice. The resulting splice is substantially flat in configuration and the band may be continuously passed in the direction of its length through the thermal stabilization zone without impairment of movement resulting from the presence of the splice. The usual exothermic heat of reaction which is evolved during the cyclization portion of the thermal stabilization reaction effectively is dissipated from within the splice without harm. BACKGROUND OF THE INVENTION It is well known that acrylic fibrous materials when subjected to heat undergo a thermal stabilization reaction wherein the fibrous material is transformed to a black form which is non-burning when subjected to an ordinary match flame.Such modification generally has been accomplished by heating the acrylic fibrous material in an oxygen-containing atmosphere. It is believed that the resulting thermal stabilization reaction involves (1) an oxidative cross-linking reaction of adjoining molecules as well as (2) a cyclization reaction of pendant nitrile grounds to a condensed dihydropyridine structure. The cyclization reaction is exothermic in nature and must be controlled if the fibrous configuration of the acrylic polymer undergoing stabilization is to be preserved. The resulting thermally stabilized fibrous material is useful as a precursor in the formation of carbon fibers.On a commercial scale the thermal stabilization reaction commonly is carried out on a continuous basis with a continuous length of a multifilament acrylic fibrous material being passed in the direction of its length through a thermal stabilization zone which is provided with a heated gaseous atmosphere. The movement of the continuous length of acrylic fibrous material through the stabilization zone may be directed by rollers, etc. situated therein.When the continuous length of acrylic fibrous material is in the form of a flat band (e.g., a flat tow), a need has arisen for an improved flat splice which can be used to effectively join segments of the precursor so that the continuous operation of the thermal stabilization reaction will not have to shut down after the passage of each length of fibrous precursor through the furnace. For instance, acrylic tows are commercially available in the form of a bale having a finite filament length. Considerable down time commonly is involved to cool down the thermal stabilization zone, to string up another length of fibrous precursor, and to again bring the thermal stabilization zone to operating temperature. Such restringing also wastes a portion of the precursor fiber. Accordingly, those skilled in the art have been aware of the need for an effective splice technique whereby the thermal stabilization treatment may be conducted for an extended period of trouble free operation.It has been found that the exothermic heat of reaction commonly creates difficulties in connection with prior splice attempts since the resulting heat is not effectively dissipated and may cause breakage of the fibrous band. Also, bulky splices (e.g., knots) commonly cannot be accommodated within thermal stabilization zones without interference and loss of process stability. If the band segments are laterally spread prior to conventional splicing in an overlapping fashion in an attempt to deal with the usual exothermic heat of reaction, then the substantially wider section of the band at the splice area complicates processing as the band travels on a continuous basis.It is an object of the present invention to provide an improved process for the thermal stabilization of a substantially flat multifilament band of an acrylic fibrous material wherein the ends of at least two discrete band segments are joined and continuously are passed in a successive manner in the direction of their length through a heated thermal stabilization zone while maintaining the original fibrous configuration of the same substantially intact for a residence time sufficient to render the band black in appearance, and non-burning when subjected to an ordinary match flame.It is an object of the present invention to provide a substantially falt multifilament band of an acrylic fibrous material which is capable of undergoing thermal stabilization by continuous passage through a thermal stabilization zone in the direction of its length having at least two discrete band segments which are joined in an end to end relationship by an improved splice.It is an object of the present invention to provide a splice for joining in an end to end relationship at least two discrete band segments of an acrylic fibrous material wherein the exothermic heat of reaction resulting from a thermal stabilization reaction readily is dissipated.It is a further object of the present invention to provide a splice for joining in an end to end relationship at least two discrete band segments of an acrylic fibrous material which is relatively flat in configuration and readily may be passed through a thermal stabilization zone without impairment of movement resulting from the presence of the splice.These and other objects as well as the scope, nature, and utilization of the invention will be apparent from the following description and appended claims.SUMMARY OF THE INVENTIONIt has been found that in a process for the thermal stabilization of a substantially flat multifilament band of an acrylic fibrous material wherein the ends of at least two discrete band segments are joined and continuously are passed in a successive manner in the direction of their length through a heated thermal stabilization zone while maintaining the original fibrous configuration of the same substantially intact for a residence time sufficient to render the band black in appearance, and non-burning when subjected to an ordinary match flame; improved results are accomplished when the ends of at least two of said band segments are joined by (1) surrounding an end of each band segment with a fabric which is capable of withstanding the heated thermal stabilization zone with a portion of the fabric extending beyond each enclosed end of the band segment to form a substantially flat fabric extension, (2) sewing the fabric to each band segment in the area where the band is enclosed by the fabric with a thread which is capable of withstanding the heated thermal stabilization zone while maintaining the enclosed portion of the band in a substantially flat configuration, (3) overlapping a pair of the substantially flat fabric extensions with each of the band segments extending in an opposite direction, and (4) sewing together the overlapped substantially flat fabric extensions with a thread which is capable of withstanding the heated thermal stabilization zone to join the band segments of acrylic fibrous material in the absence of any substantial overlap of the acrylic fibrous material of each band segment.The present invention provides a substantially flat multifilament band of an acrylic fibrous material which is capable of undergoing thermal stabilization by continuous passage through a thermal stabilization zone in the direction of its length having at least two discrete band segments which are joined in an end to end relationship by a splice comprising:1. fabric capable of withstanding the thermal stabilization treatment which surrounds an end of each band segment and extends beyond the end of the band segment to form a substantially flat fabric extension,2. stitches capable of withstanding the thermal stabilization treatment which join the fabric to the end of each band segment, and3. stitches capable of withstanding the thermal stabilization treatment which unite a pair of the substantially flat fabric extensions while in an overlapping opposing relationship in the absence of any substantial overlap of the acrylic fibrous material of each band segment within the splice.
Description
Claims
  • 1. In a process for the thermal stabilization of a substantially flat multifilament band of an acrylic fibrous material wherein the ends of at least two discrete band segments are joined and continuously are passed in a successive manner in the direction of their length through a heated thermal stabilization zone while maintaining the original fibrous configuration of the same substantially intact for a residue time sufficient to render said band black in appearance, and non-burning when subjected to an ordinary match flame; the improvement comprising joining the ends of at least two of said band segments by (1) surrounding an end of each band segment with a fabric which is capable of withstanding the heated thermal stabilization zone having a weave configuration through which heat of reaction is permitted to dissipate with a portion of said fabric extending beyond each enclosed end of said band segment to form a substantially flat fabric extension, (2) sewing said fabric to each band segment in the area were said band is enclosed by said fabric with a thread which is capable of withstanding the heated thermal stabilization zone while maintaining the enclosed portion of said band in a substantially flat configuration, (3) overlapping a pair of said substantially flat fabric extensions in the absence of any substantial overlap of the acrylic fibrous material of each band segment with each of said band segments extending in an opposite direction, and (4) sewing together said overlapped substantially flat fabric extensions with a thread which is capable of withstanding the heated thermal stabilization zone to join said band segments of acrylic fibrous material in the absence of any substantial overlap of the acrylic fibrous material of each band segment.
  • 2. An improved process according to claim 1 wherein said multifilament band of an acrylic fibrous material is selected from the group consisting essentially of an acrylonitrile homopolymer and acrylonitrile copolymers which contain at least about 85 mole percent of acrylonitrile units and up to about 15 mole percent of one or more monovinyl units copolymerized therewith.
  • 3. An improved process according to claim 1 wherein said multifilament band of an acrylic fibrous material is a flattened tow.
  • 4. An improved process according to claim 1 wherein said multifilament band has a width of about 1 to 36 inches.
  • 5. An improved process according to claim 1 wherein said fabric which surrounds an end of each band segment which is capable of withstanding the heated thermal stabilization zone is a glass fabric.
  • 6. An improved process according to claim 1 wherein said thread utilized in steps (2) and (4) is an acrylonitrile homopolymer.
  • 7. An improved process according to claim 1 wherein said heated thermal stabilization zone is provided with an oxygen-containing atmosphere.
US Referenced Citations (7)
Number Name Date Kind
1774858 Vorbau Sep 1930
3155062 Westmijze et al. Nov 1964
3206344 Elkins, Jr. Sep 1965
3349738 Kish, Jr. Oct 1967
3539295 Ram Nov 1970
3546330 Thompson Dec 1970
3754957 Druin et al. Aug 1973