T 0275/96 10-12-1998

1. The appeal is admissible.

2. Prodecural matters

2.1. Since the Proprietor of the patent in suit is the sole Appellant against the interlocutory decision under appeal, according to G 9/92 (OJ EPO 1994, 875), neither the Board nor the non-appealing Opponent may challenge the maintenance of the patent as amended in accordance with this interlocutory decision.

2.2. The ground of opposition of Article 100(b) EPC has not been invoked during the opposition period and the Opposition Division refused to admit this ground into the first instance opposition proceedings (cf. point 2.1 of the Reasons of the decision under appeal). Therefore, at the appeal stage, this ground could only be introduced with the Proprietor's consent (G 10/91 cf. supra). Such consent was, however, withheld and the ground of Article 100(b) EPC is therefore not to be considered in this appeal.

3. Article 123(2) and (3) EPC

The rubber particle size range of "from more than 0.1 to 0.19 µm" according to present Claim 1 is different from the wording of the granted Claim 1 by the words "more than". On the one hand this definition of the particle size range combines the lower limit of 0.1 µm of the range according to Claim 1 as filed with the upper limit of 0.19 µm of the range according to Claim 4 as filed, and on the other hand it introduces the new information "more than".

Since the combination of the limits of the ranges according to Claims 1 and 4 as filed does not add any new matter going beyond the original disclosure and since the words "more than" are used to distinguish the claimed subject-matter from that of document D1 by disclaiming the previously overlapping value of "0.1 µm", Claim 1 does not contravene Article 123(2) EPC.

By virtue of this disclaimer, the scope of the new Claim 1 is narrower than that of granted Claim 1; thus, the provision of Article 123(2) EPC is also met.

The same conclusions apply to the subject-matter of Claim 4, which differs from that of Claim 4 as granted by the same disclaimer.

4. Novelty

4.1. Document D1

This document relates to a thermoplastic composition which comprises (a) a polyphenylene ether resin and (b) a rubber modified polystyrene resin, comprising a polystyrene matrix in which there is uniformly dispersed a discontinuous phase comprising particles of a styrene homopolymer, alkylstyrene or halostyrene polymers, or a mixture thereof englobulated in a diene rubber membrane, said particles having an average size ranging from 0.1 to 0.7 µm, the membrane thickness being not in excess of 1/4 the average particle diameter, and the diene rubber content being from 1 to 10% by weight of the rubber modified polystyrene (cf. Claim 1).

There is no disclosure in D1 of a concrete value of the average rubber particle size of any specific HIPS, save the information that can be deduced from Figure 2 (cf. page 2, lines 84 to 93). According to the uncontested calculations of the Proprietor in his letter to the Opposition Division dated 12 April 1994 the volume average particle size of the material of Figure 2 of D1 was 0.48 µm.

There was agreement between the parties, and the Board concurs with this conclusion, that the only difference between the polymer compositions of the patent in suit and those according to D1 resides in the rubber particle size.

4.2. Selection criteria

It was not contested by the Respondent that the particle size range of "more than 0.1 to 0.19 µm" according to Claim 1 was not as such disclosed in D1. He argued, however, that this range was not novel over the broader range of "from 0.1 to 0.7 µm" disclosed in D1.

4.2.1. It is well established in law that nothing should be patented that was within the realm of the state of the art, i.e. that has been made available to the public before the filing of the European patent application (Article 54(2) EPC).

In the case of an overlap or partial anticipation of ranges of parameters it has thus to be established whether the overlapping or partially anticipated area has been made available in an enabling way.

4.2.2. In decisions T 198/84 (OJ EPO 1985, 209) and T 279/89 of 3 July 1991 (not published in the OJ EPO) the Boards of Appeal developed the following three criteria, which have to be met together, in order to establish the novelty of a selected sub-range:

(i) the selected sub-range should be narrow,

(ii) the selected sub-range should be sufficiently far removed from the known range illustrated by means of examples, and

(iii) the selected area should not provide an arbitrary specimen from the prior art, but something equivalent to another invention (purposive selection).

4.2.3. In following this analysis, this issue of novelty, in the present case, turns on the question whether the sub-range "from more than 0.1 to 0.19 µm" was made available in D1, or more particularly, was made available by the range of 0.1 to 0.7 µm disclosed therein.

4.2.3.1. Since the said sub-range amounts to only about 15% (= 100 x [0.19 - 0.1]/[0.7 - 0.1]) of the range according to D1, it can be considered as "narrow" (afore-mentioned requirement (i)).

4.2.3.2. In addition, the afore-mentioned requirement (ii) is met, because the only concretely disclosed particle size is the one to be calculated on the basis of Figure 2 and which is 0.48 µm; the lower limit of "0.1 µm" of the range "0.1 to 0.7 µm" cannot be considered as an exemplified value and does not qualify, therefore, as a value critical to the appreciation of a "true selection".

4.2.3.3. As to the purposiveness of the selected sub-range, (afore-mentioned requirement (iii)), it can be concluded from the data in the Table on page 8 of the patent in suit that the pattern of the properties: Izod impact strength, gloss, elongation at break and tensile yield deviates in a significant way from the pattern of the same properties of similar HIPS compositions comprising the same amount (8.5%) of rubber particles of the same shell/core morphology, but having particle sizes within the range of 0.1 to 0.7. µm as disclosed in D1:

Sample......particle....Izod......Gloss..Elonga=....Tensile

No..........size........Impact....(%)....tion At....Yield

.............(µm)........Strength.........Break......(N/mm2)

.........................[J/m]............(%)..............

1...........0.17.........29.......89......13...........26.9

E...........0.25.........24.......79......10...........24.5

C...........0.6..........66.......66......15...........23.4

This table shows that the inventive Sample No. 1 does not follow the trend to be expected from a reduction of the rubber particle size, as evidenced by samples No. C and E, namely that of the achievement of better gloss at the expense of deteriorated physical properties, but - quite surprisingly - exhibits a completely different quality, i.e, a property pattern comprising not only enhanced gloss but also, with respect to sample E, consistingly enhanced physical properties. The purposiveness of the selection of the composition according to Sample No. 1 can thus be recognized.

The Board is not aware of any circumstances, which could cast doubt on the Appellant's contention that the purposiveness of the selection experimentally demonstrated for (only) one composition (Sample No. 1) within the defined range, is to be judged differently for the whole sub-range specified in present Claim 1. The Respondent, on whom the burden of proof rests, although asking in his counterstatement of appeal of 11 October 1996 for a time limit to submit comparative examples, with his letter of 28 October 1996 abandoned this request and has not in fact filed any evidence able to refute the Appellant's case.

It follows that the sub-range "from more than 0.1 to 0.19. µm" in Claim 1 can be considered to also meet the afore-mentioned criterion (iii), i.e. the purposiveness of the selection.

4.2.3.4. In consequence, the rubber particle size range defined in Claim 1 fulfils all the criteria (i), (ii) and (iii) set out in the decisions T 198/84 and T 279/89, both mentioned supra.

4.3. Conclusion

From this it follows that the compositions according to Claim 1 are clearly distinguishable from the compositions according to D1 comprising rubber particles of a size of from 0.1 to 0.7 µm.

The subject-matter of Claim 1 is therefore novel over the disclosure of document D1.

The same conclusion applies to the subject-matter of Claim 4 which comprises the same sub-range feature and to the subject-matter of Claims 2 and 3, which are dependent on Claim 1.

5. Inventive step

5.1. State of the art

The present invention is concerned with the provision of rubber-reinforced polystyrene (including other monovinylidene aromatic compounds) materials having a combination of good gloss and good physical properties (cf. original application: page 2, lines 21 to 25 and page 4, lines 7 to 20; patent in suit: page 2, lines 37 to 40 and page 3, lines 24 to 33).

None of the documents D1 to D4 cited in the opposition proceedings relate to this concrete technical field:

5.1.1. Document D1

D1 (cf. point 4.1 supra) relates to polyphenylene ether compositions, which contain HIPS, but does not expand on the intrinsic properties of the HIPS component.

5.1.2. Document D2

D2 relates to transparent impact-resistant thermoplastic compositions comprising a matrix of a copolymer of a mono-alkenyl aromatic compound and an alkyl methacrylate wherein particles are dispersed having a butadiene rubber shell englobulating a copolymer of the composition of the matrix (Claim 1). This document is only concerned with compositions comprising alkyl methacrylate units in the matrix and in the rubber phase core. It is not, therefore, an appropriate starting point for the assessment of the obviousness of HIPS compositions not comprising alkyl methacrylate units; it is furthermore an important condition of D2 that the difference in refractive index between the copolymer and the butadiene rubber does not exceed 0.005 (cf. Claim 1, feature (ii)), a condition which cannot be fulfilled in the absence of alkyl methacrylate units: cf. page 10, Table 2, "Polymerizable solutions" F and G exhibiting a refractive index difference of 0.079, in conjunction with page 15, Table 5, showing that "Solution" F exhibits indeed inferior Izod impact and Haze qualities.

5.1.3. Document D3

This document relates to the colloidal properties of styrene-butadiene block copolymers, including styrene polymer compositions comprising small micellar rubber particles (cf. page 262, Figure 2 and right-hand column penultimate paragraph; page 363, left-hand column, second paragraph and right-hand column, Table I and Figure 3). This document is mainly concerned with problems of compatibility (cf. page 260, Abstract) and is silent on the optical and physical properties of the compositions.

5.1.4. Document D4

This document discusses the morphology of rubber particles formed during the polymerization of solutions of polybutadiene in styrene (cf. "Summary" on pages 175 to 176). On page 180, last paragraph it is stated that the "use" properties ("Gebrauchseigenschaften") of a rubber-modified material depend not only on the volume proportion of the disperse phase but, to a large extent, on the particle spectrum ("Teilchenspektrum"), i.e. particle size distribution. However, D4 does not refer to particular properties and is not, therefore an appropriate starting point for the assessment of the obviousness of a technical solution concerned with the improvement of gloss and physical properties.

5.1.5. Closest state of the art

During the oral proceedings the Appellant argued that the starting point of the present invention was the state of the art acknowledged in the patent in suit itself, thus including prior art as represented by DE-A-2 613 352 (= D5). With respect to this document page 2, lines 17 to 25 of the patent in suit (page 1, line 22 to page 2, line 2 of the application) refers to HIPS compositions having improved transparency and mechanical properties, which comprise rubber particles of less than one µm, preferably from 0.2 to 0.6. µm, and reports that these compositions, while having relatively good physical strength properties, do not always exhibit the desired gloss.

It can, thus, be concluded that this document represents a state of the art, which qualifies as an appropriate starting point in the concrete technical field the invention is concerned with (cf. point 5.1 supra) and is thus considered as the closest prior art.

5.2. Problem and solution

With respect to the afore-mentioned closest state of the art the problem underlying the present invention is the provision of rubber-reinforced polymers consisting essentially of units derived from one or more polymerizable monovinylidene aromatic compounds, which polymers exhibit an improved balance of good gloss and good physical properties.

According to Claim 1 of the patent in suit this problem is solved by the provision of HIPS materials comprising discrete rubber particles, which have a shell/core morphology and a volume average particle size from more than 0.1 to 0.19 µm.

The evidence reported in the Table on page 8 of the patent in suit demonstrates that this problem has effectively been solved (cf. point 5.3.1 below).

5.3. Obviousness

5.3.1. The material according to inventive Sample No. 1 of the Table on page 8 of the patent in suit provides a balance of the properties gloss, Izod impact strength, elongation at break and tensile yield, which is surprisingly superior to the balance of the same properties of (i) Samples E and C, whose materials comprise rubber particles having sizes above the upper limit of 0.19 µm of the particle size according to present Claim 1, as well as (ii) Sample D, which comprises rubber particles of a size below the lower limit of "more than 0.1 µm" of present Claim 1 and which rubber particles have a morphology of the type "rod/sphere" different from the type "shell/core" used according to present Claim 1:

Sample......particle....Izod......Gloss..Elonga=....Tensile

No..........size........Impact....(%)....tion At....Yield

.............(µm)........Strength.........Break......(N/mm2)

.........................[J/m]............(%)..............

1...........0.17.........29.......89......13...........26.9

E...........0.25.........24.......79......10...........24.5

C...........0.6..........66.......66......15...........23.4

D...........0.06.........15.......95.......3...........35

As set out in point 4.2.3.3 supra, the superiority of "inventive" Sample No. 1 over the "comparative" Samples E and C is surprising, because according to the latter samples, and in line with his general common knowledge, the skilled person would have expected that a further reduction of the rubber particle size would not only cause an improvement of the gloss, but also a deterioration of the physical properties Izod impact strength, elongation at break and tensile yield. However, the data in the table prove that not only the gloss but also the physical properties are enhanced over the values according to Sample E which uses particles of a size of 0.25 µm. Sample D shows that this suprisingly improved balance of the mentioned properties is not just the result of a smaller particle size of the rubber particles, but also requires a specific morphology, namely a shell/core morphology, of these particles.

5.3.2. None of the documents which have been cited in these proceedings comprise any hint that the solution of the existing technical problem can be achieved by the combination of features specified in present Claim 1 (cf. point 5.2 supra): D1 and D2 do not relate to HIPS, but D1 to a combination of HIPS with polyphenylene oxide and D2 to alkyl methacrylate modified HIPS-like materials; D3 and D4 are concerned with certain aspects of HIPS compositions, but are silent on their gloss, Izod impact strength, elongation at break and tensile yield; as to the closest state of the art discussed in the patent in suit itself (D5), it is clearly shown by the data contained in the above table that the particle size and the morphology of the rubber particles contribute in an unexpected fashion to the improved balance of the properties gloss, Izod impact strength, elongation at break and tensile yield. The Respondent has not brought forward any argument in favour of the obviousness of the subject-matter of present Claim 1 over this state of the art and the Board is also unaware of any relevant information on the basis of which the surprising character of the balance of properties evidenced by the data in the Table on page 8 of the patent in suit could be questioned.

5.3.3. The arguments brought forward by the Respondent in favour of the obviousness of the subject-matter of present Claim 1 cannot be accepted by the Board:

5.3.3.1. The fact that D1 discloses that the HIPS component contributes to the transparency of its blend with polyphenylene ether (cf. page 2, lines 42 to 49) cannot suggest the surprisingly improved balance of gloss and some physical properties in the selected sub-range of the rubber particle size.

5.3.3.2. The same conclusion is valid with respect to the disclosure in Table I, page 263 of D3 of rubber particle sizes within the selected sub-range. Even if the disclosure of the "Micellar Core Diameters" of from 750 to 4000 (= 0.075 to 0.4 µm) could be equated with the volume average particle sizes required by the patent in suit (which is not the case, because there is no information concerning the corresponding shell thickness), the absence in D3 of a correlation of the particle size with the specifically required properties obviates any speculation of the possible obviousness of a selected sub-range of the rubber particle size. The Respondent's argument that it was only necessary to determine the properties of the particles is therefore beside the point; there was no incentive in D3 for the skilled person to measure the gloss, the Izod impact strength, the elongation at break and the tensile yield properties of these particles.

5.3.3.3. The information which is missing in D3 cannot be found in D4 either. The reference on page 180 of this document to the dependence of the material properties on the rubber particle size only confirms what is self-evident. This statement cannot, however, serve as a guidance to the skilled person wishing to solve the existing technical problem, because nothing is said about the interdependence of the rubber particle size and certain specific properties. The only measure the person skilled in the art could envisage on the basis of this information, would be to engage in a random screening program involving a huge number of experiments. On the basis of said statement in D4 the skilled person could not, therefore, by a few orienting experiments and without inventive skill arrive at the claimed solution of the existing technical problem.

5.3.4. It follows that the subject-matter of present Claim 1 involves an inventive step.

5.3.5. The same conclusion applies a fortiori to the subject-matter of Claim 4 which relates to a method for preparing the rubber-reinforced product of Claim 1 and comprises the same features of rubber particle size and particle morphology as Claim 1.

The unobviousness of the subject-matters of Claims 2 and 3 results from their dependency on Claim 1.