(dissenting). Among the defenses set up by the answer 'of the defendant to the suit were lack of novelty and invention, anticipation, no infringement, and a want of sufficient description of the alleged invention. By the decree appealed from it was adjudged that claim 2 of the patent was valid, and that it had been infringed by the defendant.
The invention claimed was for an improvement in the art of bleaching nuts, and was in no sense one of a pioneer character. _
I agree that in considering the sufficiency of the description contained in the specification, as well as the claims, a liberal commonsense construction should be given so as to sustain the patent, if this can be done consistently with the language employed therein. Davis v. Palmer, 7 Fed. Cas. 155; Davoll v. Brown, 7 Fed. Cas. 199; Turrill v. Railroad Co., 1 Wall. 491, 17 L. Ed 668; Rubber Co. v. Goodyear, 9 Wall. 788, 19 L. Ed. 566; Klein v. Russell, 19 Wall. 443, 22 L. Ed. 116; Cornplanter Patent, 23 Wall. 181, 23 L. Ed. 161; Merrill v. Yeomans, 94 U. S. 568, 24 L. Ed. 235.
At the same time the same common-sense view must be taken of the statute by virtue of which patents are issued, which involves, of course, a consideration of the purpose of the required specification. The pertinent statutory provisions are as follows:
Revised Statutes:
“See. 4886. Any person wño lias invented or discovered any new and- useful art, machine, manufacture, or composition of matter, or any new and useful improvement thereof, not known or used by others in this country, and not patented or described in any printed publication in this or any foreign country, before his invention or discovery thereof, and not in public use or on sale for more than two years prior to his application, unless the same is proved to have been abandoned, may, upon payment of the fees required by law, and other due proceedings had, obtain a patent therefor.” U. S. Comp. St. 1901, p. 3382.
“Sec. 4888. Before any inventor or discoverer shall receive a patent for his invention or discovery, he shall make application therefor, in writing, to the Commissioner of Patents, and shall file in the Patent Office a written description of the same, and of the manner and. process of making, constructing, compounding and using it, in such full, clear, concise, and exact terms as to enable any person skilled in the art or science to which it pertains, or with which it is most clearly connected, to make, construct, compound and use the same, and in case of a machine, he shall explain the principle thereof, and the best mode in which he has contemplated applying that principle, so as to distinguish it from other inventions; and he shall particularly point out and *455distinctly claim the part, improvement, or combination which lie claims as his invention or discovery. The specification and claim shall be signed by the inventor and attested by two witnesses.” U. S. Comp. St. 1001, p. 3383.
The conceded purpose of the statutory requirement in process cases' is that the specification must be in such full, clear, and exact terms as to enable any one skilled in the art to which it pertains to compound and use the process without any experiments of his own. The first question for consideration, therefore, is, does the specification of the patent in question answer that requirement?
The evidence in the case undoubtedly shows that the patentee’s process bleaches nuts better, more expeditiously, and with less damage than any theretofore known; yet it is just as true that, if there was anything new in his mixture of chlorid of lime and sal-soda, it must necessarily have been in the proportions; for years before the patent in question was applied for, solutions of chlorid of lime and of sal-soda, as well as a mixture of such solutions, were well-known bleaching agents. This was not only clearly shown in the evidence introduced in the present case, but was also clearly made to appear in the proceedings in the Patent Office for the patent in question. Neither the specification nor the claims make any mention of the proportions of chlorid of lime or sal-soda to be used, but the witness Anderson, who, it appears, secured the assignment of the claimed invention from Farrell to the Anderson Prune Dipper Company, testified that he explained to those desiring to use the process the proper proportions- — his testimony being, in part, as follows :
“A. Yes, I visited the Fullerton AValnnt Growers’ Association. Q. Yes? Now, what dealings did you have with them? A. At first: they were not interested, but later in the season I made an arrangement with them whereby they were to use the process on any quantity of nuts that: they wished to for a certain royalty per car. This arrangement was to stand for that season. Q. AVhat season was that? A. .1898. Q. Then it was for only that one season? A. Only that one season. Q. And did they use it during that season? A. On a limited number. I understood — was told by the manager — that they used it on their difficult nuts. Q. What do you mean by the ‘difficult’ nuts? A. AYell, I presume those that they could not get in merchantable shape, with the sulphur process. Q. A’on don’t know (lie extent to which they used it that year, though, dd you? A. From three to four cars is my recollection. Q. Were they to pay for that use? A. Yes, sir. Q. They agreed to pay for that use, did they? A. They agreed to pay it. Q. And that agreement related to only that one season, did it? A. Yes, sir. Q. Now, did they ever use it after that season? A. They used it in the season of 10-00 — 01. T could not. state from personal knowledge that they used it, in 1902. Q. Rut they used it in 1900 and 1901, to your knowledge, did they? A. I was there and saw them using it in 1900 and 1901. Q. AVhat was the occasion of your being there? A. I had business in those parts of the state with other associations. Q. And you visited those places in 1901, and saw them using that process? A. Yes, sir. Q. Describe the process as they were using it. A. I could not say definitely the proportions in which, they used it. hut I could state they used a compound solution of chlorid of lime and sal-soda and an acid to liberate the petroleum (chlorin). Q. Had you given them full instructions in 189-8 as to how to use it? A. Yes, sir. Q. You had furnished them with a formula, had you? A. I do not recall whether X furnished them with a printed formula or not. I had the formulas, but 1 cannot: recall definitely whether I furnished them with the printed formula or not. Q. How did yon, then, instruct them in the use of it? A. Sly instructions were at: that time to take 20 pounds of sal-soda and 30 pounds of chlorid of lime, dissolve the chlorid and lime sep-*456aratoly and dissolve the sal-soda in hot water, add the two together, and add a certain quantity of water to make 50 gallons of the mixture, and allow that •to settle, draw off the clear solution, and then use vinegar at the proportion of 1 part to 15 of the compound solution. Q. And you fully instructed them in those respects, did you? A. Yes, sir. I stayed there until they commenced to use it successfully and were familiar with the process.”
And the inventor Farrell, being questioned in his deposition concerning his experiments before making application for a patent answered :
“A. Well, I used different proportions. I didn’t bring it down to— Well, I’ did bring it down to regular proportions, but according to the nuts. Sometimes I would put in more of one chemical than another. If they were very dirty, I put more chlorid of lime in order to make it stronger. Q. Now, after you got down this formula to the position that you had stated, did you continue to use it on your nuts then? A. Yes, sir. Q. With what success? A. Very good success. Q. I-Iow did it compare with the old process in success? A. Well, I considered it a great deal better than the old process.”
It is manifest that, if the proportions of chlorid of lime and sal-soda to be used in the process in question was an essential element of the invention, the patent could not be sustained, for the reason that, in such event, the patent does not impart the requisite statutory information to those entitled to avoid or use it. In re Incandescent Lamp Patent, 159 U. S. 465, 474, 16 Sup. Ct. 75, 40 L. Ed. 281; Howard v. Detroit Stove Works, 150 U. S. 164, 14 Sup. Ct. 68, 37 L. Ed. 1039; Wood v. Underhill, 5 How. 1, 12 L. Ed. 23; Tyler v. Boston, 7 Wall. 327, 19 L. Ed. 93; Mitchell v. Tilghman, 19 Wall. 287, 22 L. Ed. 125; Chemical Rubber Co. v. Raymond Rubber Co. (C. C.) 68 Fed. 570; Badische Anilin & Soda Fabrik v. Kalle (C. C.) 94 Fed. 163; Matheson v. Campbell, 78 Fed. 914, 24 C. C. A. 384; Panzl v. Battle Island Paper Co., 138 Fed. 48, 70 C. C. A. 474.
The proceedings in the Patent Office as disclosed by the file wrapper, which appears in evidence, show that Farrell never claimed any specific proportions of chlorid of lime or of sal-soda, or the use of hot water in the process, and that, while he first claimed, in answer to the first rejection of his application by the examiner, his invention to be “the solution prepared in. the first instance” by mixing^ “a solution of chlorid of lime and a solution of sahsoda after they have been separately dissolved, and then keeping this solution as a stock which is drawn upon whenever a lot of nuts are to be bleached,” he subsequently based his claim to invention in the matter to the addition to this mixture of a weak acid, and a simultaneous immersion of the nuts while the chlorin gas thus liberated was in a nascent condition. This plainly appears from the voluminous proceedings embodied in the file wrapper.
The examiner, as well as the board of chief examiners of the Patent Office, held that there was nothing new in Farrell’s process, and, accordingly, denied the application for a patent, but an appeal to the Commissioner resulted in this decision by the Assistant Commissioner:
“It is well known, as shown by the references, that a mixture of bleaching powder and washing soda has bleaching properties, and that it has been used for bleaching cloth. The appellant does not dispute this, but he correctly contends that his process does not involve merely the application of this well-known scientific fact. He not only applies this mixture to bleaching nuts, but he plunges the nuts into it at the very moment when he adds weak acid thereto, so that the nuts will be subjected to the action of the nascent chlorin lib*457erated. Tt is true that lie is not the discoverer of the fact that ehlorin has greater bleaching properties at the moment that it is liberated; but in so far as the record shows, he is the first to conceive the possibility of utilizing the scientific facts for the bleaching of nuts in the manner set forth, lie has discovered no new law of nature, but has discovered a new process of utilizing well-known laws in the production of a new and useful result. This, in my opinion, amounts to invention, and entitles him to the protection of a patent.
'“The commercial superiority and advantages of the appellant’s process over those previously used are shown by certain affidavits filed. These affidavits, when taken with the fact that no one has heretofore used the process sot forth for the purpose, notwithstanding a knowledge of the scientific facts upon which it is based, would be sufficient upon which to resolve any doubts as to patentability in the appellant’s favor, if any such doubts existed.
“The decision of the examiners in chief is reversed.”
It is perfectly plain from the various contentions made on behalf of Farrell in the Patent Office that what he there finally contended was new in his process was the addition of a weak acid to a mixture of the solution of the chlorid of lime and of sal-soda, and the coincident plunging of the nuts therein, thereby obtaining the benefit of the liberated ehlorin gas in its nascent condition, and the immediate removal of the nuts from the bath; and also claimed as new the application of the process to nuts. And it was only the plunging of the nuts into the theretofore well-known mixture of bleaching powder and washing soda, “at the very moment when he adds weak acid thereto, so that the nuts will be subjected to the action of the nascent ehlorin liberated,” that the Commissioner — reversing the adverse ruling of the examiner and chief examiners — held that Farrell had “discovered a new process of utilizing well-known laws in the production of a new and useful result,” and was therefore entitled to the patent, which was thereupon issued. The application of an old process to analogous matter, producing a result substantially similar in its nature, is entirely lacking in invention. De Lamar v. De Lamar Min. Co., 117 Fed. 246, 247, 54 C. C. A. 272, and authorities there cited. The new feature in the ap-pellee’s process, namely, the plunging of the nuts into the mixture of the solution of chlorid of lime and of sal-soda coincidently with the addition of a weak acid, thereby securing the action of the ehlorin gas in its nascent condition, is embraced by claim 1 of the patent, which reads as follows:
“(1) In 11ip art of cleansing and bleaching nuts, the stops consisting in mixing a compound solution of chlorid of lime and Sal-soda in a dipping vessel, adding a weak acid thereto, and immediately plunging the nuts into the solution, and removing them, and finally washing them.”
But this new and, as held by the Commissioner, patentable feature,.. is not embraced by claim 2 of the patent, which reads as follows:
“(2) In the art of washing and bleaching nuts, the steps, consisting in mixing a compound solution of chlorid of lime and sal-soda in a dipping vessel,, adding a weak ac-id thereto whereby potentially effective ehlorin is liberated, and plunging the nuts in an openwork basket into the solution, and immediately removing them.”
This is, in effect, admitted by the learned counsel for the appellee, where he says, on page 383 of his brief:
“The next point made by appellant's counsel is in reference to the coincident immersion of the nuts, and is thus expressed by him at page 99 of the' brief:
*458“ ‘Coincident immersion of tlie nuts, with the addition of the acid, was an essential and important element in the patentee’s claims, and this step was not followed in the use of the process by the defendant, and therefore there was no infringement.’
“The first answer we make to this contention is that claim 2 does not mention such coincident addition of the acid and immersion of the nuts. It simply says: ‘Adding a weak acid thereto whereby potentially effective elilorin is liberated, and plunging the nuts in an openwork basket into the solution, and immediately removing them.’
“There can be no doubt as to this language. It does not require that the acid should be added coincidently with the immersion of the nuts. Hence, if we are to be guided by tbe language of the claim alone, counsel’s argument goes for naught, because the language of the claim does not provide for the feature of coincidence.
“This fact is made more apparent hy reference to claim 1, which uses the expression, ‘adding a weak acid thereto and immediately plunging the nuts in the solution.’ It may be that in claim 1 the patentee has limited himself to a coincident immersion of the nuts by using the word ‘immediately.’ If so, it must follow that the absence of such a-word in claim 2 indicates an intention to dispense with that feature in claim 2.”
But claim 2 is the only claim of the patent in suit adjudged by the court below to have been infringed, and as it obviously does not cover the only novel feature in the patented process, namely, the plunging of the nuts into the mixture of the solution of chlorid of lime and sal-soda coincidently with the addition of a weak acid, and which coincident immersion the evidence shows that the appellant has not practiced, I see no escape from the conclusion that the adjudged infringement cannot be sustained.
Another consideration necessarily leads, in my opinion, to the same conclusion. The acid covered by the patent in suit is “a weak acid.” The evidence shows without conflict that at no time during the alleged infringement did the appellant use in its operations any other acid than a diluted sulphuric acid. In one of his opinions the examiner said that “a weak acid is any dilute acid.” “This,” say’s the appellant’s counsel in his brief, “ought to be conclusive, for it shows what the government intended to grant, and actually did grant, when using the term ‘a weak acid.’ ” But the examiner also said, and so held in each of his opinions, that there was nothing new or patentable in the Farrell process. His statement is as conclusive in the one instance as in the other, but, in reality, is conclusive in neither. Upon the question as to what is “a weak acid,” the respective parties introduced the testimony of expert chemists. Professors Hilgard and Dunn, of. the Agricultural Department of the University of California, testified on behalf of the appellant, and Professor Price on behalf of the appellee.
Prof. Hilgard testified, among other things, as follows:
“Q. I will ask you to define a weak acid? A. The weakness of acid is only relative. We can make a series of acids at tlie heads of which would stand sulphuric acid as the strongest, and carbonic acid as tbe weakest, and between that the different acids would stand in succession. By itself, it is not possible to define a weak acid, hut only in comparison with others. Q. You place sulphuric acid, tlie strongest of any? A. Yes, sir. Q. How does acetic acid rank with respect to strength? A. Acetic acid ranks as rather a weak acid. Q. What is the effect of diluting a strong acid? A. It still remains a strong acid. The rapidity of its actiou is diminished by *459the diliiiion, but the ultimate result will bo the samo. Q. Comparing 1bo effect of dilute sulphuric ac-id with a weak acid in the solution which is referred to in this Farrell parent, state wllat the comparison is. A. The difference would be this: that while acetic aclil as a weak acid is constantly regenerated by its expulsion from the combination with lime by the hydrochloric acid form in the bleaching process, flmt is not the case with sulphuric. Sulphuric holds its own, will remain in combination, and hydro-chloric acid will really be the free acid acting beyond the first addition of. sulphuric acid. Q. Are you able to state the effect of these two acids upon the liquid solution with respect to length of efficiency? In other words, which is the more enduring-in the solution as an active and continuing agent? A. The quantity of sulphuric acid added, if sufficient to decompose the entire amount of the bleaching compound, will be most rapid. The action of the acetic acid will be more lasting. Q. That is, the addition of the acetic would render the liquid compound effective for a longer time than the sulphuric acid? A. It would be effective for a longer time: yes, sir. The liquid charged with sulphuric acid would lose its efficiency sooner than that charged with acetic. Q. At the time you issued your circular, you knew, of course, the effect that sulphuric acid would have upon the liberation of the gas? A. Yes, sir. Q. You did not recommend that? A. I did not recommend it, because I always feared to put sulphuric acid into the hands of farmers, and my experience seemed to show that a sufficiently short time would suffice to bring the bleaching result about; but American farmers proved to be more impatient than I had anticipated, and they desired to take hold of a quicker method. Q. Why did you fear placing the sulphuric acid in the hands of a farmer? A. It is a very corrosive acid, and constantly gives rise to injuries to the clothes and also to the body. Q. That is not the case with acetic acid? A. No, that is not the case with acetic. Q. And in that respect acetic is much safer? A. It is safer, yes, being vinegar. Q. Is there any difference in the effect upon the surface of the nut between the sulphuric acid added to the liquid solution referred to and acetic acid, with respect to deposits on the surface? A. Sulphuric acid, if added in excess, would, in drying, blacken the nuts. Acetic acid will, on the contrary, evaporate without any effect Q. Would there be any lime deposit left after a simple dip of the mils into liquid to which sulphuric acid had been added? A. There would not; there is no lime in the solution. Q. Would there be any kind of a deposit left on the surface which would not— A. (interrupting). There would bo no deposit on the surface of the nuts in either case. It would only be the case if bleaching powder solutions were used.”
Prof. Dunn, testified, among other things, as follows:
“Q. I will ask you if there is any classification of acids in the textbooks, or the use of the term among chemists? A. Yes, acids are classified. Q. In what way? A. They are classified as strong and weak acids. Q. What are the strong acids? A. The strong acids are the mineral acids. They vary in strength, starting with an acid that has the strongest avidity or strength, as we may call it, and grading through to weaker acids. Q. Well, now, enumerate the strongest acids in the order of their strength. A. Nitric and hydro-chloric acid stand equally as regards avidity. They are classed as the same. Sulphuric acid comes lower in the order. And the various other mineral acids range from that down. The organic acids are arranged also in the order of their strength, most of them being, though, weaken- acids than the mineral acids. Q. Will you classify, comparatively, compared with other acids, strong acids? Where does sulphuric acid rank? A. Sulphuric acid ranks about— Well, I would— I could not state just where it ranks. Probably third or fourth. Q. Are there other strong acids still weaker than that? A. There are; yes. Q. What are they? A. We have hydro-bromic acid, hydriodic acid; such acids as those. Q. Is sul-phuric acid a mineral acid? A. It is a mineral acid. Q. What kind of acid is acetic acid? A. Acetic acid is an organic acid. Q. What do you mean by that? A. By that we mean that it is an acid belonging to the carbon series of compounds, that are known as organic acids, Q. Is acetic acid a weak or strong acid, in this classification? A. It is a weak acid. Q. What is a dilute *460acid? A. A dilute acid is a concentrated acid to which some solvent has been added. The solvent usually added to dilute the acids is water. Q. Now, does the dilution of the acid change its rank or definition as being weak or strong? A. It does not Q. A strong acid dilute is still called a strong acid? A. A strong acid. Q. And it is not properly termed a weak acid even though greatly diluted? A. It is not. Q. Have you any authorities on that subject to which you can refer? A. I believe I have. I will refer to Newell’s Chemistry, p. 41. Q. What book is that, and what rank has it? A. It is a text-book used in colleges and schools as a text-book on chemistry. Q. Yes, sir. How long have you known that book to have been in circulation? A. Three years.”
Prof. Price testified, among other things, as follows:
“Q. You have classified the acids in this way: You call acetic acid a weak acid? A. Yes, sir, it is weak in certain respects. Q. And you call sulphuric acid diluted a weak acid? A. Either diluted or weak. I am speaking now of the familiar way in which these acids are spoken of in the laboratory. Q. That is, a strong acid diluted is spoken of in the laboratory as a weak acid? A. Yes, sir. I may say, ‘Give me the weak hydro-chloric acid.’ That would mean immediately that it had been diluted. Q. Is it not a fact that acids are classed as strong or weak, depending upon the activity of the given acid towards bases? A. No, I do not consider it so, and I will tell you why: If I am going to make acetate of soda, it will take 32 parts of strong acetic acid. Now, of course, I am speaking of what you call glaeic acid, and the two combined with the same quantity of soda, it would take 49 of sulphuric acid; one to form sulphate of soda, and the other to form acetate of soda. The term in which I understand all acids to be of various degrees of strength is this: that sulphuric acid will drive all other acids out of their combinations; they will combine according to their equivalents. For instance, after having prepared acetate of soda, I add upon that sulphuric acid; it will drive off the acetic acid. That is the sense in which sulphuric acid is stronger than acetic acid. In its affinities for combination, no. Q. Is it not a fact that works upon chemistry do class the acids as strong or weak with respect to their activity toward bases? A. I do not remember having read anything of the kind, because I have given you an illustration that it takes equivalent of acetic acid to combine with soda to form acetate of soda. That equivalent of acetic acid is 32. It will take 49 parts of sulphuric acid to combine with the same quantity of soda. In that respect, as far as the combination with base is concerned, you cannot measure anything by strength, but the strength conies by an acid that will drive the weaker acids, like carbonic acid and acetic acid, from the combinations. That is the sense in which acid is called weak or strong. Q. Acids, according to your definition, are weak or strong with respect to their effect upon each other in combination? A. Their effect upon each other; yes, sir. Sulphuric acid will drive all the other acids away with the exception of all the organic acids. Its effect upon many of the organic acids is to break them up into carbon, carbonic oxide, and carbonic acid. Q. Being placed in a condition of opposition to each other in any given combination, is it not a fact that the sulphuric acid is the strongest of all in the expulsion or elimination of the other? A. Yes, sir, sulphuric acid is stronger in expelling other acids from the combination. Q. Is it not the strongest of all? A. It is the strongest of all in. that respect, but not in the respect— F'or instance, sulphuric acid has no effect upon platinum, and a mixture of nitric and hydro-chloric acid will dissolve it. There are many other substances besides nitric and hydro-chloric acid which will do the same thing, and which sulphuric acid will not do.”
The proper conclusion to be drawn from all of this, and from the balance of the testimony of these witnesses is, I think, that the expression “a weak, acid” is an ambiguous term. And this conclusion is confirmed by Newell’s Chemistry, shown to be a standard work, where that author, at page 41, says:
*461‘•A solution which contains a .small proportion of soluto is called a dilute solution; one containing a large proportion is called a concentrated solution. Tims, dilute' sulphuric acid usually contains one volume of acid to three or more volumes of water, while concentrated sulphuric acid is nearly 98 per cent. acid. Sometimes the terms weak and strong replace dilute and concentrated. hut they are ambiguous, and their use should bo avoided.”
The same seems to be indicated in Watt’s Dictionary of Chemistry, vol. 1. p. 51, where is given a table showing the relative avidity of the acids with respect to the base soda, and in that table hydro-chloric and nitric acid are classified as having a greater avidity for soda, and there follow in succession hydro-bromic, hydriodic, sulphuric, selenic, formic, phosphoric, acetic, hydro-fluoric, boric, and hydro-cyanic. Reference should therefore be made to the specifications of the patent, and the proceedings in the Patent Office on the application for it, to discover just what the patentee meant by the “weak acid” of the claims. See Hailes v. Albany Stove Co., 123 U. S. 582, 8 Sup. Ct. 262, 31 L. Ed. 284; Royer v. Coupe, 146 U. S. 524, 13 Sup. Ct. 166, 36 L. Ed. 1073; Hubble v. U. S. 179 U. S. 77, 21 Sup. Ct. 24, 45 L. Ed. 95; Stillwell, etc., Co. v. Cotton, 117 Fed. 410, 54 C. C. A. 584; Jewel Filter Co. v. Jackson, 140 Fed. 340-344, 72 C. C. A. 304. In his specifications. Farrell, in explaining the advantages of his own process and the addition of acid to the mixture of the solutions of chlorid of lime and of sal-soda in order to liberate the chlorin gas, expressly condemned the action of sulphur fumes and sulphuric acid in the old processes therein described, and said:
“I have found that, white many acids might produce 1he result of liberating the gas. a safe acid for the purpose is acetic acid or vinegar, and of which X may use approximately 1 part to 20 of the solution.”
And he proceeded to claim only “a weak acid.” And, throughout the proceedings in the Patent Office, Farrell, by his attorney, was persistent in his disclaimer of sulphuric acid in order to distinguish his process from the previous processes and references, and particularly from the Ironmonger patent. Furthermore, fi'arrell himself testified on the trial, among other things, as follows:
“Q. Now. when you finally came down to the process which you use today, and for which you took out your patent, what was the result of your experiments with regard to the use of different acids? A. Well, all the acids seem to work good. Q. Did you try the different acids? A. Yes, sir, I tried different acids. Q. What acids did you try? A. I tried sulphuric and muriatic. Q. What results did muriatic and sulphuric acids have? A. Well, they had good results on the color of the nut Q. How did yon come to try vinegar? A. Well, I thought it was more of an article of table úse, and T thought it would be more acceptable to the people. Q. The vinegar brings about the same results, does it, as the other does? A. Yes sir, about the same results. Q. What proportion did you use? A. Well, I used different proportions. I didn't bring it down to— Well. I did bring it down to regular proportions, but according to the nuts. Sometimes I would put in more of one chemical than another. If they were very dirty, I put more chlorid of lime in, in order to make it stronger. Q. Now, after you got down this formula to the position That you had stated, did you continue to use it on your nuts then? A. Yes, sir. Q. With what success? A. Very good success. Q. How did it compare with the old process in success? A. Well, I considered it a great deal better than the old process. Q. It was after that, then, that you applied for your patent? A. Yes, sir. Q. What did *462you mean by saying, you thought vinegar would be more acceptable to the public than muriatic or sulphuric acid? A. On account of those, acids being supposed to be more -or less poisonous. Q. Kind of prejudice in the minds of the public against their use? A. Kind of prejudice in the mind of the public. Q. But you demonstrated by your experiments that all of those acids were equally good? A. Yes, sir.”
And on cross-examination this witness testified, among other things, as follows:
“Q. You say that you used sulphuric acid, muriatic acid, and nitric acid ? A. Yes. Q. When did you first use those acids? A. X used them in the first experiments that X made. Q. How did you use them? Explain the method by which you used them? A. Oh, I used them on a small scale in a dip. Just manufactured small quantities and used them in a small scale; just on a few nuts. Q. Well, did you use the sulphuric acid before you used the vinegar, or afterwards? Which was your first use? A. I used the sulphuric acid and the muriatic acid before I used the vinegar. Q. And those you discarded as not being suitable for use because of the public prejudice against them? A. I didn’t know but what there might be a public prejudice against the use of the nuts afterwards. Q. Well, you supposed as a matter of fact, did you not, that the sulphuric acid would be hurtful to the nuts, and did you not so state? A. I didn’t know whether it would or not. ' Q. Didn’t you so state in your application for— A. Yes, I supposed it probably might. Q. Did you not use this language: ‘Various devices have been employed for ''leaching or cleansing the nuts. One has been by sprinkling or wetting tb .¡, and then placing them in a closed room and applying the fumes of sulphur. In some cases the nuts have been rolled in sawdust which is impregnated with a solution of sulphureous acid. The objections to those methods are that the action upon the nuts is not uniform; that any of the nuts which happened to be slightly open become impregnated with the sulphuric acid; and, further, the nuts subjected to this treatment are apt to become rancid within two or three months, and will not keep properly.’ You used that language, did you not, in your application for a patent? A. Yes. Q. Well, what did you mean by this statement that ‘Any of the nuts which happened to be slightly open would become impregnated with sulphuric acid; and, further, the nuts subjected to this treatment are apt to become rancid in two or three months and will not keep) properly?’ What did you mean by that? A. Well, I meant that they probably would become rancid from the effects of the sulphuric — from the effects of the sulphur fumes. Q. Did you ever become familiar at any time during your experiments, or while your application for patent was pending, with the patent of Ironmonger? A. I didn’t hear you, please. (Question repeated.) A. I did not. Q. Were you present in Washington City while these applications were pending and being contested in the department? A. How is that? (Question repeated.) A. I was not. Q. Do you know whether or not in those applications the process of using sulphuric acid in connection with the bleaching powders was disclaimed and condemned as being injurious to the fruit? A. Using the acid? (Question repeated.) A. I do not. Q. Was your statement as to. the effects of sulphuric acid based upon experiment or conjecture? A.’Upon experiment. Q. Yes? Then you had discovered, you had so far experimented with the sulphuric acid as to discover, that ‘nuts which happened to be slightly open become impregnated with sulphuric acid’? A. Yes, sir. Q. And that they are ‘apt to become rancid within two or three months, and will not keep properly’? A. Yes_, sir. Q. You made that discovery? A. Yes, sir. Q. From actual experiments? A. Yes, sir. Q. And that, perhaps, is the reason why you made that statement in the application for the patent? A. Yes. Q. And you did not at that time claim in your application for patent that the sulphuric acid was a good agent to use in connection with your bleaching powders? A. I don’t remember whether I did or not.”
The rule is that a patent should never be construed to include a feature which it is plain the patentee intended to avoid. Magic Light *463Co. v. Economy Gas Lamp Co., 97 Fed. 87, 38 C. C. A. 56; Enterprise Mfg. Co. v. Snow (C. C.) 72 Fed. 262; Cotter v. New Haven Copper Co. (C. C.) 13 Fed. 234; Williams v. Goodyear Metallic Rubber Co. (C. C.) 49 Fed. 215; Id., 54 Fed. 498, 4 C. C. A. 485.
It seems to trie quite clear from what has been said that the “weak acid” claimed by the patentee did not include sulphuric acid in any form. And, if it did, the claims were not sufficiently specific, for, as said by Judge Dallas in the somewhat analogous case of Chemical Rubber Co. v. Raymond (C. C.) 68 Fed. 570, 572:
“The claims themselves neither indicate what strength of acid is sufficient, nor define what is meant by strong acid. Upon this most material point they supply no information whatever.”
And, in affirming the judgment of Judge Dallas in that case, the Circuit Court of Appeals for the Third Circuit said, in 71 bed. 182, 18 C. C. A. 31, that if the invention—
“really involves the use of diluted acid, and dilution with water is requisite to the operation, it was Ills (the inventor’s) duty to describe the solution, or state the practical rule which accomplishes the desired result.”
I think the case of Chemical Rubber Co. v. Raymond very much in point, and that it supports the conclusion to which I have come.
In my opinion the judgment should be reversed, with directions to the court below to dismiss the complainant’s bill.