FR2503787A2 - Fixing anchor bolts etc. into rock - using hot melt adhesive melted by rotation of the bolt during insertion into the borehole - Google Patents

Abstract

Method of anchoring a reinforcing element such as an anchor bolt into a rock substrate comprises (1) drilling a borehole in the rock and inserting a frangible cartridge comprising a solid hot melt adhesive, (2) inserting a rotating reinforcing element into the hole and into contact with the hot melt adhesive so that the rotation causes the adhesive to melt and to form a layer of molten grouting adhesive in the annular space between the reinforcing element and the wall of the borehole; and (3) allowing the adhesive to solidify to anchor the bolt etc. in place. The cartridge is e.g. in the form of a hollow tubular casing contg. the hot melt adhesive in particulate form. The adhesive may be e.g. of EVA, polyamides, polyesters of polyolefins. Process is esp. useful for fixing anchor bolts etc. into rock. Use of solid hot melt adhesives in place of known liq. compsns. facilitates the process and overcomes problems of solvent toxicity and flammability associated with liq. prods. Loss of adhesive by draining into cracks in the rock whilst in the liq. state are reduced and the adhesive sets rapidly when rotation is ceased.

Description

 The main French patent application No. 80/18612 filed August 27, 1980 describes a method of sealing rods and anchor bolts in mine galleries and similar works. characterized in that one or more fillers of suitable size, consisting essentially of a hot-melt glue, are placed in the bottom of the hole, in that the sealing rod is then inserted into the hole and rotated sufficiently fast to cause, when said rod comes into contact with said hot-melt glue, and penetrates into said fillers, the melting of the hot-melt glue by heating dA to the rotation of the rod, and in that, after penetration of the rod until At the bottom of the hole, the liquefied hot melt glue is allowed to resolidify to seal the rod.

 The present invention represents a substantial improvement residing in the development of particular hot melt compositions providing results much higher and very well adapted to the specific problems of the technique in question.

 In particular, the new products allow much faster bolting cycles and can be made less brittle or non-brittle, both of these characteristics being of great industrial importance.

 In addition, the charges they contain have greatly reduced the cost of seal cartridges.

 Finally, the adhesion characteristics have been improved.

The invention thus relates to thermofusible compositions possibly loaded, for sealing in rapid cycles of anchor bolts in mine galleries, structures, and the like, characterized in that they consist of
a) a mixture of at least two hot melt materials
selected from the following categories:
i) Thermoplastic resin esters
and ii) vinyl acetate and ethylene polymers, the
mixture containing at least one material of each
category, and (b) possibly in a mineral charge, representing
then about 2/3 of the weight of the composition
a) + b), maximum.

As components a), the following products were used: a) i). (I) STAYBELITE ESTER 10 (commercial product
by the company HERCULES):
Real Ester derived from Rosin Resin
hydrogenated, or
(2) FORAL 85 (product marketed by the
Company HERCULES)
Ester resin, highly stabilized, possessing
perfect resistance to oxidation: in
particular the FORAL 85 surpasses the STAYBELITE
ESTER 10 on this point.

a) ii): (3) ELVAX 4260 and (3 ') ELVAX 4319 (products
marketed by DU PONT DE NEMOURS (terpoly
acidic ponds of vinyl acetate and ethylene)).

 ELVAX 4260: melt index 5 to 7 g / 10 min.

 ELVAX 4310: melt index 420 at 580 g / 10 min.

 The melt index makes it possible to assess the relative viscosity of these two products (ELVAX 4310 being more fluid than ELVAX 4260).

Acid number (mg KOH / g of polymer):
ELVAX 4260: 4 to 8
ELVAX 4310: 4 to 8
Vinyl acetate content:
ELVAX 4260: 27-29%
ELVAX 4310: 24-26%
(3 ") ELVAX 40 P (FROM THE NEMOURS BRIDGE)
Vinyl acetate copolymer (39-42%) and
ethylene (EVA).

 Flow rate: 48-66 g / 10 min.

 As filler b), sand NE 34 sold by the company SIFRACO, grain diameter 75-425 / u was used.

 It is possible not to use a load.

 However, it improves the thermal phenomena during the introduction of the rod or bolt into the cartridge placed at the bottom of the borehole, and can greatly reduce the cost of the product.

 Also, the charged compositions are very clearly preferred.

 It is surprising in this regard to note that the proportion of filler can be of the order of about 2/3 of the weight of the composition without it being unusable.

 It is known in fact that hot-melt glues or "hot melts", when they are loaded, must not be strongly, under penalty of a loss of adhesive properties.

This is how the guide of the Company DU
BRIDGE for ELVAX products only recommends 10 to 30% of pigments.

 it is furthermore surprising to note that, by weakly varying the relative proportions of the components a) i) and a) ii), certain properties of the compositions can be profoundly modified, in particular making them semi-brittle or non-brittle.

 The following examples illustrate the invention without, however, limiting its scope.

 For the general laying technique, reference may be made to the above-mentioned main patent application.

 This technique is also quite conventional in itself, and therefore known.

EXAMPLES 1 to 4
The compositions (1) to (4) shown in Table I below were prepared by mixing, melting and cooling.

 These compositions are of the preferred charged type.

 An installation test was performed, the parameters of which are also shown in Table I.

 Finally, a pull-out test was carried out.

This test is carried out with known vein using a veirin
The measurement is carried out 1 hour after the installation of the rod.

We see that the four products have excellent properties, substantially homogeneous.
EXAMPLE 5
The composition (5) indicated in Table I, of the unfilled type, was manufactured as in Example 1.

 The same laying and tearing operations were carried out.

 It can be seen that the tearing characteristic is substantially greater.

 However, taking into account the price of the composition, formula (4) will be preferred.

EXAMPLES 6 and 7
Bolting tests in concrete specimens were carried out in the laboratory on compositions (4) and (5) of Table I.

 The results are collated in Table II below.

These results highlight the brevity of the introduction time compared to the cartridges described in the main patent, if we reduce to comparable values
This represents a decisive industrial advantage that is not obtained if the basic components a) i) or a) ii) are used alone, with or without a load.

EXAMPLE 8
Under the following conditions (formula 4)
- diameter of the stem: 18 mm (crenellated)
- diameter of drilling: 22.5 mm.

 - length of the seal in the concrete: 500 mm.

- from the point of view
thrust: 400 kg
. rotation speed: 420 rpm.

 . rotation time: 60 seconds.

a traction test after 24 ha leads to
breaking of the stem under 18 tons.

EXAMPLES 9 to 13
By slightly modifying the proportions of the components a) i) and a) ii), it has been possible to modify considerably, and therefore surprisingly, certain physical properties of the cartridges and in particular to make them semi-flexible or completely flexible, so noncassantes.

 This can be a decisive advantage for those skilled in the art.

9. Example of formulation "semi-EouEle"
FORAL 85: 325 g 21.5 X by weight
ELVAX 4310: 175 g 11.5 X by weight
Sand NE 34: 1000 g 67 X by weight
Adhesion rate: 44 kg / cm 2 10. Example of semi-substrate formulation:
FORAL 85: 375 g 25% by weight
ELVAX 4310: 87.5 g 5.5% by weight
ELVAX 40 P: 37.5 g 2.5% by weight
Sand NE 34: 1000 g 67% by weight mechanical test: adhesion rate 33 kg / cm2.

Product slightly fragile.

Rotation time to bottom: 2 min. 20 sec.

11. Example of "semi-flexible" formulation
FORAL 85: 350 g 23% by weight
ELVAX 4310: 105 g 7% by weight
ELVAX 40 P: 4 g 3% by weight
Sand NE 34: 1000 g 67% by weight
Mechanical test: adhesion rate 35 kg / cm 2
Formula more flexible than the previous one.

Rotation time to reach the bottom: 2 min. 15 sec.

12. Example of "flexible" wording:
FORAL 85: 310 g 20.3% by weight
ELVAX 4310: 190 g 12.7% by weight
Sand NE 34: 1000 g 67% by weight
Adhesion rate: 27 kg / cm2.

13. Example of "very flexible" formulation:
FORAL 85: 375 g 25% by weight
ELVAX 4310
ELVAX 40 P: 125 g 8 by weight
Sand NE 34: 1000 g 67% by weight
Mechanical test: adhesion rate 47 kg / cm 2.

Very flexible product.

Rotation time to reach the bottom: 2 min. 30 sec.

 It is seen that a slight decrease in the proportion of the compound a) i) results in an unrelated increase in flexibility, but also in a reduction in the adhesion rate.

 It can also be seen that, at an equal rate of FORAL 85, a decrease in the ELUX 4310 level and an increase in that of ELVAX 40 P increases the flexibility of the composition.

 The skilled person, given the above indications and the case (nature of the rock, bolt, drilling characteristics, etc.) will achieve the appropriate compromise.

EXAMPLES 14 and 15:
Presentation in granules:
The compositions according to the invention have the advantage of also being able to be used in the form of a mixture of granules, the preparation of the composition then being limited to the simple mixing of the basic components of type a) (which are usually produced in granules ) and possibly load b).

 Despite the particulate character of the composition, a correct mixture is obtained during the introduction of the rod, and therefore the desired properties for sealing.

14: In a glass tube of 10 mm and length 100 mm, the following components were mixed:
STAYBELITE ESTER 10 (granules) 50% by weight
ELVAX 4260 (granules) 50% by weight.

 An installation test was carried out as shown in Table I.

 The adhesion rate is 64 kg / cm 2.

15: We opore as in Example 14, with the following composition
STAYBELITE ESTER 10 (granules) 67% by weight
ELVAX 4260 (granules) 33% by weight.

Introductory time 2 min. 05 sec.

Adhesion rate 64 kg / cm2.

 As a comparison with all the above tests, the adhesion rate of concrete before slipping on steel is around 30 kg / cm2 according to G. MASSIE published by EYROLLES /.

 If we repeat the above tests, we see that the component a) i) allows to adjust the mechanical strength and fragility to impact, as well as the characteristics of more or less easy penetration of the rod, and that the component (a) (ii) provides for the final flexibility of the product.

EXAMPLE 16
The industrial production of the sealing charges according to the invention can be carried out using a thermoplastic polystyrene tube, the latter constituting the outer envelope.

This tube provides the following benefits
it allows the sealing charges not to stick together in the packing box,
it allows a certain flexibility in the pneumatic filling of the drilled holes,
it allows, possibly, a preheating of the sealing charges: for example, a box of hot-melt sealing charges may be placed on the engine of a bolting machine. The advantage of such preheating is to further reduce the duration of the laying cycle (about half).

 One can also consider preheating the rod, for the same purpose.

EXAMPLE 17 (comparative)
A composition containing 25% by weight of FORAL 85 and 75% of sand gives poor results: excessive fluidity, lack of cohesion, very strong settling of the sand, poor sealing properties (under the laying test conditions of Table I : introduction time 4 min, pullout test: 32 kg / cm 2). This is attributable to the lack of combination with an ELVAX product.

EXAMPLE 18: Mine test.

We used a jumbo type B 26 C from the Société de Mécanique de Moutiers having the following performances
. empty rotation speed: 920 rpm.

 . speed of rotation under load: 580 rpm.

. couple: 12.5 mkg to 105 bars
thrust: 950 kg.

1) OPERATIVE CONDITIONS:
- drilling diameter: 22 mm
- stem diameter: 18 mm smooth steel
(type ARTOP)
- stem length: 1.8Q m
With hole utilization of a load TF1 (formula 4 of Table I) 18 mm, length 1.06 m, equipped with a finned nose.

2) RESULTS:
2.1 - Rotation time:
2.1.1.- with TF1 at room temperature #
C.

- test 1: 70 s
- test 2: 85 s
- test 3: 60 s
- test 4: 80s
2.1.2.- with TF1 previously exposed to a
heat source (t # 40 C).

- test 5: 55 9 (exposure to heat: 2 min.)
- test 6: 45 s (exposure to heat: 3 min.)
- test 7: 35 s (exposure to heat: 4 min.)
- test 8: 30 s (exposure to heat: 5 min.)
2.2 - Traction tests: load TF1
2.2.1. : Coal sealing
- n 1: 4,500 t - 1 hour after installation: slip
- n 2: 4,700 t - 1 hour after installation: slip
- n 3: 5,000 t - 35 min. after the pose: slip
2.2.2. : Rock Sealing (Shale)
- No. 4: 11,300 t - 1 hour after installation: stop
2.3. - Traction tests: sealing loads
classic (polyester).

2.3.1. - coal:
- nO 1: 7,000 t - 24 hours after installation: slip
- n "2: 5,000 t - 24 hours after installation: slip
- No. 3: 7,000 t - 24 hours after installation: slip
- nn 4: 0.500 t - 24 hours after installation: slip
2.3.2. - to the rock
- No. 5: 10,000 t - 24 hours after installation: slip
and lengthening.

 In the case of coal, "sliding" means that the ground gives way.

 On the contrary, in the rock, "stop" means that one is still in the field of springback.

 Test No. 4 with charcoal must be considered as aberrant, sealing having not taken.

It can therefore be seen that the compositions according to the invention, formed by the combination in certain proportions of certain basic hot-melt adhesives, and possibly a filler, have a surprising set of properties, which is decisive for industrial application:
- a clear reduction in the duration of the bolting cycle,
- ability to adjust the flexibility,
- lower cost.

The fillers according to the invention also have other advantages - unlimited retention; - no risk of bad mixing, contrary
to conventional loads - a variation of annular space (between
stem and the ground) has very little effect
on the sealing t the arrival of the rod at the bottom of the hole means
for sure the sealing is done - no risk of premature locking of the stem,
since it is then sufficient to increase the speed
rotation to release the rod, in case of
start of blocking.

- adaptation to small seals, including
to the "DIY" sector.

TABLE I

C <SEP> O <SEP> M <SEP> P <SEP> O <SEP> S <SEP> A <SEP> N <SEP> T <SEP> S <SEP> (1) <SEP> (2) <SEP> (3) <SEP> (4) <SEP> (5)
<tb> (1) <SEP> STAYBELITE <SEP> ESTER <SEP> 10 <SEP> 25 <SEP>% <SEP> - <SEP> 25 <SEP>% <SEP> - <SEP> (2) <SEP > FORAL <SEP> 85 <SEP> - <SEP> 25 <SEP>% <SEP> - <SEP> 25 <SEP>% <SEP> 75 <SEP>%
<tb> (3) <SEP> ELVAX <SEP> 4260 <SEP> 8.33 <SEP>% <SEP> 8.33 <SEP>% <SEP> - <SEP> - <SEP> (3 ') <MS> ELVAX <SEQ> 4310 <SEP> - <SEP> - <SEP> 8.33 <SEP>% <SEP> 8.33 <SEP>% <SEP> 25 <SEP>%
<tb> (5) <SEP> Sand <SEP> NE <SEP> 34 <SEP> 66.67 <SEP>% <SEP> 66.67 <SEP>% <SEP> 66.67 <SEP>% <SEP > 66.67 <SEP>% <SEP>
TEST <SEP> FROM <SEP> POSE
<tb><SEP> diameter of <SEP> hole <SEP>: <SEP> 14 <SEP> mm
<tb> Diameter <SEP> of <SEP> the <SEP> stem <SEP>: <SEP> 12 <SEP> mm
<tb> Length <SEP> of <SEP><SEP> stem <SEP> (smooth) <SEP>: <SEP> 200 <SEP> mm
<tb> Length <SEP> of <SEP> anchor <SEP>: <SEP> 150 <SEP> mm
<tb> Cartridge <SEP>#<SEP> 12 <SEP> - <SEP> L <SEP>: <SEP> 100 <SEP> mm
<tb> Introductory <SEP> time <SEP> 3 <SEP> min <SEP> 15s <SEP> 3 <SEP> min <SEP> 5 <SEP> s <SEP> 2 <SEP> min <SEP> 10 <SEP> s <SEP> 2 <SEP> mn <SEP> 1 <SEP> mn <SEP> 5s
<tb> (speed <SEP> of <SEP> the <SEP> punch
<tb> pneumatic <SEP>: <SEP> 600 <SEP> RPM
<tb> TEST <SEP> OF ARRACHEMENT
<tb> Adhesion Rate <SEP><SEP> (Kg / cm2) <SEP> 62 <SEP> 62 <SEP> 74 <SEP> 73 <SEP> 100
<tb> TABLE II

time <SEP> thrust <SEP> speed <SEP> type <SEP> of
<tb>#<SEP> hole <SEP>#<SEP> of <SEP> the <SEP> stem <SEP> long. <SEP> of the <SEP> hole
<tb> of introduction <SEP> maximum <SEP> (rev / min) <SEP> cartridge
<tb> mm <SEP> mm <SEP> mm
<tb> kg
<tb> A <SEP> - <SEP> With <SEP> the <SEP> formula <SEP> n @ <SEP> 4 <SEP> - <SEP> (1) <SEP> Catouche <SEP> diameter <SEP> : <SEP> 18 <SEP> mm <SEP> - <SEP> Length <SEP>: <SEP> 880 <SEP> mm
<tb> (2) <SEP> Cartridge <SEP> diameter <SEP>: <SEP> 25 <SEP> mm <SEP> - <SEP> Length <SEP>: <SEP> 920 <SEP> mm
<tb> 22.5 <SEP> 18 <SEP> (smooth) <SEP> 1 <SEP> 500 <SEP> 3 <SEP> mn <SEP> 12 <SEP> s <SEP> 400 <SEQ> 417 <SEP > (1)
<tb> 22.3 <SEP> 18 <SEP> (crenate) <SEP> 1 <SEP> 500 <SEP> 2 <SEP> mn <SEP> 30 <SEP> s <SEP> 400 <SEQ> 411 <SEP > (1)
<tb> 22.5 <SEP> 18 <SEP> (crenate) <SEP> 1 <SEP> 500 <SEP> 1 <SEP> min <SEP> 18 <SEP> s <SEP> 400 <SE> 905 <SEP > (1)
<tb> 28 <SEP> 18 <SEP> (breakthrough) <SEP> 1 <SEP> 500 <SEP> 55 <SEP> s <SEP> 350 <SEP> 925 <SEP> (2)
<tb> 28 <SEP> 20 <SEP> (free) <SEP> 1 <SEP> 500 <SEP> 2 <SEP> mn <SEP> 25 <SEP> s <SEP> 400 <SEQ> 410 <SEP> ( 2)
<tb> B <SEP> - <SEP> With <SEP> the <SEP> formula <SEP> n @ <SEP> 5 <SEP> - <SEP> (1) <SEP> Cartridge <SEP> diameter <SEP> : <SEP> 18 <SEP> mm <SEP> - <SEP> Length <SEP>: <SEP> 800 <SEP> mm
<tb> (2) <SEP> Cartridge <SEP> diameter <SEP>: <SEP> 25 <SEP> mm <SEP> - <SEP> Length <SEP>: <SEP> 920 <SEP> mm
<tb> 22.4 <SEP> 18 <SEP>(<SEP> smooth) <SEP> 1 <SEP> 500 <SEP> 1 <SEP> mn <SEP> 46 <SEP> s <SEP> 400 <SEP> @ <SEP> 420 <SEP> (1)
<tb> 22.3 <SEP> 18 <SEP> (crenate) <SEP> 1 <SEP> 500 <SEP> 2 <SEP> mn <SEP> 47 <SEP> s <SEP> 450 <SEQ> 417 <SEP > (1)
<tb> 22.3 <SEP> 18 <SEP> (crenate) <SEP> 1 <SEP> 500 <SEP> 1 <SEP> mn <SEP> 15 <SEP> s <SEP> 400 <SEQ> 945 <SEP > (1)
<tb> 22.2 <SEP> 18 <SEP> (smooth) <SEP> 1 <SEP> 500 <SEP> 45 <SEP> s <SEP> 400 <SEP> 953 <SEP> (1)
<tb> 28 <SEP> 18 <SEP> (crimped) <SEP> 1 <SEP> 500 <SEP> 58 <SEP> s <SEP> 350 <SEP> 953 <SEP> (2)
<Tb>

Claims (9)

a) a mixture of at least two basic hot melt materials selected from the following categories: 1. hot melt, load-like compositions according to claim 7 of the main patent, for sealing in rapid cycles of anchor bolts in galleries of mines, structures, and the like, characterized in that they consist of  i) thermoplastic resin esters  and ii) vinyl acetate and ethylene polymers,  the mixture containing at least one material  of each category,  and b) optionally in a mineral filler, then representing of the order of 2/3 of the weight of the composition a) + b), at most. 2. Compositions according to claim 1, characterized in that components a) i) are chosen from resin esters derived from rosin and highly stabilized resin esters having a perfect resistance to oxidation. 3. Compositions according to claim 1 or 2, characterized in that components a) ii) are selected from acidic terpolymers of vinyl acetate and ethylene and copolymers of vinyl acetate and ethylene. ESTER 10 and FORAL 85 from the company HERCULES. 4. Compositions according to any one of claims 1 to 3, characterized in that components a) i) are selected from STAYBELITE products 5. Compositions according to any one of claims 1 to 3, characterized in that the components a) ii) are selected from the products ELVAX 4260, 4310 and 40 P of the company DU PONT. 6. Compositions according to any one of claims 1 to 5, characterized in that the inorganic filler b) consists of a sand. 7. Compositions according toeendendend 6, characterized in that said sand has a particle size of 75-425 / u approximately. NE 34 from SIFRACO.  8. Compositions according to claim 7, characterized in that said sand consists of sand  ELVAX 4260 (granules) 50% by weight.  STAYBELITE ESTER 10 (granules): 50% by weight  Sand NE 34: 67% by weight 19.Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 40 P: 8% by weight  FORAL 85: 25% by weight  Sand NE 34: 67% by weight 18. Composition according to any one of Claims 1 to 8, characterized in that it contains:  ELVAX 4310: 12.7% by weight  FORAL 85: 20.3% by weight  Sand N 34: 67% by weight 17. Composition according to any one of claims 1 to 8, characterized in that it contains  ELVAX 40 P: 3% by weight  ELAX 4310: 7% by weight  FORAL 85: 23% by weight  Sand NE 34: 67% by weight 16.Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 40 P: 2.5% by weight  ELVAX 4310: 5.5% by weight  FORAL 85: 25% by weight  Sand NE 34: 67% by weight 15. Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 4310: 11.5% by weight  FORAL 85: 21.5% by weight  ELVAX 4310: 25% 14. Composition according to any one of Claims 1 to 8, characterized in that it contains:  FORAL 85: 75%  Sable NE 34: 66,67 and 13.A composition according to any one of claims 1 to 8, characterized in that it contains  ELVAX 4310 8.33%  FORAL 85: 25%  Sable NE 34: 66.67% 12. Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 4310: 8.33%  STAYBELITE ESTER 10: 25%  Sand 34: 66.67% 11. Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 4260: 8.33%  FORAL 85: 25%  Sand NE 34: 66.67% 10. Composition according to any one of Claims 1 to 8, characterized in that it contains  ELVAX 4260: 8.33%  STAYBELITE ESTER 10: 25% 9. Composition according to any one of claims 1 to 8, characterized in that it contains:  ELVAX 4260 (granules) 33% by weight.  STAYBELITE ESTER 10 (granules) 67% by weight 20. Composition according to any one of claims 1 to 8, characterized in that it contains 21. Rod sealing cartridges and anchor bolts characterized in that they contain a composition according to any one of claims 1 to 20, or are directly constituted of such a composition. 22. A method of sealing in rapid cycles of rods and anchor bolts, according to claim 1 of the main patent, characterized in that at least one cartridge according to claim 21 is used as sealing filler, in that one place at the bottom of the hole one or more of these charges, of suitable dimensions, in that the rod to be sealed is then penetrated into the hole, driven with a rotational movement which is fast enough to cause, when said rod reaches the contacting said hot-melt composition and entering said charges, melting the hot-melt composition by heating dt upon rotation of the rod, and in that, after penetration of the rod to the bottom of the hole, the hot-melt composition is left liquefied to resolidify to seal the stem. 23. The method of claim 22, characterized in that the speed of rotation of the rod is of the order of 600 rpm.