Process for the production of cellulosic fibres

Details Process for the production of cellulosic fibres Process for the production of cellulosic fibres

2001-03-21

2003-11-11

Tentoni, Leo B. (Department: 1732)

Plastic and nonmetallic article shaping or treating: processes

With severing, removing material from preform mechanically,...

Forming continuous work followed by cutting

C264S187000, C264S203000, C264S211140, C264S233000

Reexamination Certificate

active

06645409

ABSTRACT:

This invention relates to a process for the production of cellulo sic fibres from solutions of cellulose in an aqueous tertiary amine oxide.
In the last few decades intensive efforts were undertaken to make alternative and more environmentally friendly processes available for the production of cellulosic fibres as a result of the environmental problems associated with the well-known viscose process. One interesting possibility to emerge in the last couple of years was to dissolve cellulose in an organic solvent without the formation of a derivative and to extrude moulded bodies from this solution. Fibres spun from solutions of this kind were also allocated the generic name of Lyocell by BISFA (The International Bureau for the Standardisation of Man-Made Fibres) whereby a mixture of an organic chemical and water is understood by an organic solvent. Moreover, fibres of this kind are also known by the term of “solvent-spun fibres”.
It has been found that a mixture of tertiary amine oxide and water is particularly well suited as the organic solvent for the production of Lyocell fibres and respectively other moulded bodies. In this respect mainly N-methyl-morpholine-N-oxide (NNMO) is used as the amine oxide. Other suitable amine oxides are disclosed in EP-A 0 553 070. Processes for the production of cellulosic elongate members from a solution of cellulose in a mixture of NNMO and water are for example disclosed in U.S. Pat. No. 4,246,221 or in PCT-WO 93/19230. In this process the cellulose is extruded through a spinneret, stretched in an air gap and precipitated from the solution in an aqueous precipitating bath. In the following this process is described as the “amine oxide process” or “Lyocell process” whereby in the following abbreviation “NNMO” means all tertiary amine oxides which can dissolve cellulose. Fibres produced according to the same amine oxide process are characterised by their high fibre tenacity in the conditioned and wet state, high wet modulus and high loop strength.
From PCT-WO 97/14829 it is known that after leaving the precipitating bath freshly spun Lyocell fibres are cut and washed in the form of a fleece of irregularly oriented fibres.
PCT-WO 92/14871 describes a process to wash fibres produced according to the amine oxide process. In this process the continuous and as yet uncut fibres are passed through a series of water baths in the form of a tow. The cutting of the fibres to staple fibres takes place at a later stage in the process.
PCT-WO 92/14871 emphasises that the pH value of the wash baths has to be below 8.5 otherwise the fibres produced have a greater tendency to fibrillation.
In this connection PCT-WO 92/14871 points out that it is known from the viscose process for the production of cellulosic fibres that one of the washing stages is designed as a bleaching stage in which an alkaline pH value predominates. In the amine oxide process, however, it is known that all of the washing liquors to recover NMMO are recirculated. In this connection it is also known from PCT-WO 92/14871 that the wash baths are connected one to the other and fresh washing liquor is applied to the last wash bath and led in countercurrent with the transportation direction of the fibre tow to the first wash bath. Since the entry of large quantities of additional chemicals to this circuit is not desired, no bleaching stage can be implemented in the amine oxide process into the circuit of the washing liquor. It is only possible to provide a bleaching bath independent of the wash baths connected one to the other. If in the following “washing baths” are mentioned then an independent bleaching bath of this kind is not meant.
Another problem with washing fibres produced according to the amine oxide process is that any NMMO sticking to the fibres has to be completely removed from these.
SUMMARY OF THE INVENTION
The present invention sets itself the task of making a process available in which the NMMO can be washed out of the fibre with a minimum amount of effort.
This task is resolved by a process for the production of cellulosic fibres from solutions of cellulose in an aqueous tertiary amine oxide whereby the extruded fibres are led through a precipitating bath and cut and the cut fibres are passed in the form of a fleece through several wash baths and finally dried whereby the washing baths are connected one to the other and fresh washing liquor is applied to the last wash bath and led in countercurrent with the transportation direction of the fibre fleece to the first wash bath and whereby the process is characterized in that the pH value of each of the wash baths is maintained higher than 8.5. For the purpose of the present invention, a pH value of more than 8.5 is termed an “alkaline pH value” in the following.
DETAILED DESCRIPTION OF THE INVENTION
The invention relates to so-called “washing lines” of a series of wash baths connected to each other. In accordance with the invention, the pH value of the washing liquor of each of the wash baths connected to each other has to be maintained higher than 8.5. Baths which are not connected to the wash baths and are, therefore, not fed with the same washing liquor, such as separate treatment and bleaching baths, are not covered by the present invention.
Surprisingly it has been shown that an alkaline pH value in the wash baths in the case of washing freshly spun and cut Lyocell fibres in the form of a fleece, in contrast to washing continuous fibres in tow form, has the effect that the NMMO can be completely removed from the fibre in a few washing steps. In this way the need for washing water and installations can be clearly reduced which has a positive impact on the cost of the process.
Moreover in contrast to washing the fibres in tow form it is seen that an alkaline pH value of the wash bath(s) has no negative impact on the tendency to fibrillation of the fibres produced.
One advantageous embodiment of the process in accordance with the invention is characterised in that the pH value of the wash baths is maintained between 9 and 11. Moreover, the pH value of the wash baths is preferably maintained between 10 and 11.
It appears that the greatest amount of NMMO is removed from the fibres when washing the NMMO out of the fibres in the first wash baths. In the wash baths which follow only very low amounts of NMMO are still present in the fibres which are, however, more difficult to wash out. If the wash liquor has an alkaline pH value this results in an increase in the rate at which NMMO is washed out particularly in the baths which follow.
In one advantageous form of the invention the pH value in the wash baths can be set by adding alkaline buffering substances. In this respect the addition of sodium hydroxide is given preference. The amount of sodium hydroxide required in this respect, which depends on process parameters such as the pH value of the fleece respectively the humidity in the fleece, can be easily ascertained by the expert in the circumstances given. In a simple way the amount added is regulated by the pH value of the wash baths.
The sodium hydroxide can be added to only one of the wash baths or in several places of the washing procedure. It has been shown that the addition of alkali to the wash baths does not have a negative influence on the process steps which follow such as the cleaning of the wash baths and the recovery of the solvent.
In particular it is an advantage to add the alkaline buffering substance in the second third of the washing line which comprises the wash baths connected one to the other. This guarantees that in the final wash baths, in which an alkaline pH value plays a particularly important role, there is sufficient alkalinity and that, on the other hand, not too much alkaline buffering substance is discharged with the washed fibres.
Moreover it is advantageous that liquor is forced out of the fibre fleece after it leaves the wash bath before entering the following wash bath. Thereby it can be prevented to a large extent that NMMO-containing wash waters are trailed into the following washing stage.
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