<h2 id="id00198" style="margin-top: 4em">CHAPTER IV</h2>
<h5 id="id00199">THE SECRET OF MANUFACTURING AND SERVING</h5>
<p id="id00200" style="margin-top: 2em">Now I am not outlining the career of the Ford Motor Company for any
personal reason. I am not saying: "Go thou and do likewise." What I am
trying to emphasize is that the ordinary way of doing business is not
the best way. I am coming to the point of my entire departure from the
ordinary methods. From this point dates the extraordinary success of the
company.</p>
<p id="id00201">We had been fairly following the custom of the trade. Our automobile was
less complex than any other. We had no outside money in the concern. But
aside from these two points we did not differ materially from the other
automobile companies, excepting that we had been somewhat more
successful and had rigidly pursued the policy of taking all cash
discounts, putting our profits back into the business, and maintaining a
large cash balance. We entered cars in all of the races. We advertised
and we pushed our sales. Outside of the simplicity of the construction
of the car, our main difference in design was that we made no provision
for the purely "pleasure car." We were just as much a pleasure car as
any other car on the market, but we gave no attention to purely luxury
features. We would do special work for a buyer, and I suppose that we
would have made a special car at a price. We were a prosperous company.
We might easily have sat down and said: "Now we have arrived. Let us
hold what we have got."</p>
<p id="id00202">Indeed, there was some disposition to take this stand. Some of the
stockholders were seriously alarmed when our production reached one
hundred cars a day. They wanted to do something to stop me from ruining
the company, and when I replied to the effect that one hundred cars a
day was only a trifle and that I hoped before long to make a thousand a
day, they were inexpressibly shocked and I understand seriously
contemplated court action. If I had followed the general opinion of my
associates I should have kept the business about as it was, put our
funds into a fine administration building, tried to make bargains with
such competitors as seemed too active, made new designs from time to
time to catch the fancy of the public, and generally have passed on into
the position of a quiet, respectable citizen with a quiet, respectable
business.</p>
<p id="id00203">The temptation to stop and hang on to what one has is quite natural. I
can entirely sympathize with the desire to quit a life of activity and
retire to a life of ease. I have never felt the urge myself but I can
comprehend what it is—although I think that a man who retires ought
entirely to get out of a business. There is a disposition to retire and
retain control. It was, however, no part of my plan to do anything of
that sort. I regarded our progress merely as an invitation to do
more—as an indication that we had reached a place where we might begin
to perform a real service. I had been planning every day through these
years toward a universal car. The public had given its reactions to the
various models. The cars in service, the racing, and the road tests gave
excellent guides as to the changes that ought to be made, and even by
1905 I had fairly in mind the specifications of the kind of car I wanted
to build. But I lacked the material to give strength without weight. I
came across that material almost by accident.</p>
<p id="id00204">In 1905 I was at a motor race at Palm Beach. There was a big smash-up
and a French car was wrecked. We had entered our "Model K"—the
high-powered six. I thought the foreign cars had smaller and better
parts than we knew anything about. After the wreck I picked up a little
valve strip stem. It was very light and very strong. I asked what it was
made of. Nobody knew. I gave the stem to my assistant.</p>
<p id="id00205">"Find out all about this," I told him. "That is the kind of material we
ought to have in our cars."</p>
<p id="id00206">He found eventually that it was a French steel and that there was
vanadium in it. We tried every steel maker in America—not one could
make vanadium steel. I sent to England for a man who understood how to
make the steel commercially. The next thing was to get a plant to turn
it out. That was another problem. Vanadium requires 3,000 degrees
Fahrenheit. The ordinary furnace could not go beyond 2,700 degrees. I
found a small steel company in Canton, Ohio. I offered to guarantee them
against loss if they would run a heat for us. They agreed. The first
heat was a failure. Very little vanadium remained in the steel. I had
them try again, and the second time the steel came through. Until then
we had been forced to be satisfied with steel running between 60,000 and
70,000 pounds tensile strength. With vanadium, the strength went up to
170,000 pounds.</p>
<p id="id00207">Having vanadium in hand I pulled apart our models and tested in detail
to determine what kind of steel was best for every part—whether we
wanted a hard steel, a tough steel, or an elastic steel. We, for the
first time I think, in the history of any large construction, determined
scientifically the exact quality of the steel. As a result we then
selected twenty different types of steel for the various steel parts.
About ten of these were vanadium. Vanadium was used wherever strength
and lightness were required. Of course they are not all the same kind of
vanadium steel. The other elements vary according to whether the part is
to stand hard wear or whether it needs spring—in short, according to
what it needs. Before these experiments I believe that not more than
four different grades of steel had ever been used in automobile
construction. By further experimenting, especially in the direction of
heat treating, we have been able still further to increase the strength
of the steel and therefore to reduce the weight of the car. In 1910 the
French Department of Commerce and Industry took one of our steering
spindle connecting rod yokes—selecting it as a vital unit—and tried it
against a similar part from what they considered the best French car,
and in every test our steel proved the stronger.</p>
<p id="id00208">The vanadium steel disposed of much of the weight. The other requisites
of a universal car I had already worked out and many of them were in
practice. The design had to balance. Men die because a part gives out.
Machines wreck themselves because some parts are weaker than others.
Therefore, a part of the problem in designing a universal car was to
have as nearly as possible all parts of equal strength considering their
purpose—to put a motor in a one-horse shay. Also it had to be fool
proof. This was difficult because a gasoline motor is essentially a
delicate instrument and there is a wonderful opportunity for any one who
has a mind that way to mess it up. I adopted this slogan:</p>
<p id="id00209">"When one of my cars breaks down I know I am to blame."</p>
<p id="id00210">From the day the first motor car appeared on the streets it had to me
appeared to be a necessity. It was this knowledge and assurance that led
me to build to the one end—a car that would meet the wants of the
multitudes. All my efforts were then and still are turned to the
production of one car—one model. And, year following year, the pressure
was, and still is, to improve and refine and make better, with an
increasing reduction in price. The universal car had to have these
attributes:</p>
<p id="id00211">(1) Quality in material to give service in use. Vanadium steel is the
strongest, toughest, and most lasting of steels. It forms the foundation
and super-structure of the cars. It is the highest quality steel in this
respect in the world, regardless of price.</p>
<p id="id00212">(2) Simplicity in operation—because the masses are not mechanics.</p>
<p id="id00213">(3) Power in sufficient quantity.</p>
<p id="id00214">(4) Absolute reliability—because of the varied uses to which the cars
would be put and the variety of roads over which they would travel.</p>
<p id="id00215">(5) Lightness. With the Ford there are only 7.95 pounds to be carried by
each cubic inch of piston displacement. This is one of the reasons why
Ford cars are "always going," wherever and whenever you see
them—through sand and mud, through slush, snow, and water, up hills,
across fields and roadless plains.</p>
<p id="id00216">(6) Control—to hold its speed always in hand, calmly and safely meeting
every emergency and contingency either in the crowded streets of the
city or on dangerous roads. The planetary transmission of the Ford gave
this control and anybody could work it. That is the "why" of the saying:
"Anybody can drive a Ford." It can turn around almost anywhere.</p>
<p id="id00217">(7) The more a motor car weighs, naturally the more fuel and lubricants
are used in the driving; the lighter the weight, the lighter the expense
of operation. The light weight of the Ford car in its early years was
used as an argument against it. Now that is all changed.</p>
<p id="id00218">The design which I settled upon was called "Model T." The important
feature of the new model—which, if it were accepted, as I thought it
would be, I intended to make the only model and then start into real
production—was its simplicity. There were but four constructional units
in the car—the power plant, the frame, the front axle, and the rear
axle. All of these were easily accessible and they were designed so that
no special skill would be required for their repair or replacement. I
believed then, although I said very little about it because of the
novelty of the idea, that it ought to be possible to have parts so
simple and so inexpensive that the menace of expensive hand repair work
would be entirely eliminated. The parts could be made so cheaply that it
would be less expensive to buy new ones than to have old ones repaired.
They could be carried in hardware shops just as nails or bolts are
carried. I thought that it was up to me as the designer to make the car
so completely simple that no one could fail to understand it.</p>
<p id="id00219">That works both ways and applies to everything. The less complex an
article, the easier it is to make, the cheaper it may be sold, and
therefore the greater number may be sold.</p>
<p id="id00220">It is not necessary to go into the technical details of the construction
but perhaps this is as good a place as any to review the various models,
because "Model T" was the last of the models and the policy which it
brought about took this business out of the ordinary line of business.
Application of the same idea would take any business out of the ordinary
run.</p>
<p id="id00221">I designed eight models in all before "Model T." They were: "Model A,"
"Model B," "Model C," "Model F," "Model N," "Model R," "Model S," and
"Model K." Of these, Models "A," "C," and "F" had two-cylinder opposed
horizontal motors. In "Model A" the motor was at the rear of the
driver's seat. In all of the other models it was in a hood in front.
Models "B," "N," "R," and "S" had motors of the four-cylinder vertical
type. "Model K" had six cylinders. "Model A" developed eight horsepower.
"Model B" developed twenty-four horsepower with a 4-1/2-inch cylinder
and a 5-inch stroke. The highest horsepower was in "Model K," the
six-cylinder car, which developed forty horsepower. The largest
cylinders were those of "Model B." The smallest were in Models "N," "R,"
and "S" which were 3-3/4 inches in diameter with a 3-3/8-inch stroke.
"Model T" has a 3-3/4-inch cylinder with a 4-inch stroke. The ignition
was by dry batteries in all excepting "Model B," which had storage
batteries, and in "Model K" which had both battery and magneto. In the
present model, the magneto is a part of the power plant and is built in.
The clutch in the first four models was of the cone type; in the last
four and in the present model, of the multiple disc type. The
transmission in all of the cars has been planetary. "Model A" had a
chain drive. "Model B" had a shaft drive. The next two models had chain
drives. Since then all of the cars have had shaft drives. "Model A" had
a 72-inch wheel base. Model "B," which was an extremely good car, had 92
inches. "Model K" had 120 inches. "Model C" had 78 inches. The others
had 84 inches, and the present car has 100 inches. In the first five
models all of the equipment was extra. The next three were sold with a
partial equipment. The present car is sold with full equipment. Model
"A" weighed 1,250 pounds. The lightest cars were Models "N" and "R."
They weighed 1,050 pounds, but they were both runabouts. The heaviest
car was the six-cylinder, which weighed 2,000 pounds. The present car
weighs 1,200 lbs.</p>
<p id="id00222">The "Model T" had practically no features which were not contained in
some one or other of the previous models. Every detail had been fully
tested in practice. There was no guessing as to whether or not it would
be a successful model. It had to be. There was no way it could escape
being so, for it had not been made in a day. It contained all that I was
then able to put into a motor car plus the material, which for the first
time I was able to obtain. We put out "Model T" for the season
1908-1909.</p>
<p id="id00223">The company was then five years old. The original factory space had been
.28 acre. We had employed an average of 311 people in the first year,
built 1,708 cars, and had one branch house. In 1908, the factory space
had increased to 2.65 acres and we owned the building. The average
number of employees had increased to 1,908. We built 6,181 cars and had
fourteen branch houses. It was a prosperous business.</p>
<p id="id00224">During the season 1908-1909 we continued to make Models "R" and "S,"
four-cylinder runabouts and roadsters, the models that had previously
been so successful, and which sold at $700 and $750. But "Model T" swept
them right out. We sold 10,607 cars—a larger number than any
manufacturer had ever sold. The price for the touring car was $850. On
the same chassis we mounted a town car at $1,000, a roadster at $825, a
coupe at $950, and a landaulet at $950.</p>
<p id="id00225">This season demonstrated conclusively to me that it was time to put the
new policy in force. The salesmen, before I had announced the policy,
were spurred by the great sales to think that even greater sales might
be had if only we had more models. It is strange how, just as soon as an
article becomes successful, somebody starts to think that it would be
more successful if only it were different. There is a tendency to keep
monkeying with styles and to spoil a good thing by changing it. The
salesmen were insistent on increasing the line. They listened to the 5
per cent., the special customers who could say what they wanted, and
forgot all about the 95 per cent. who just bought without making any
fuss. No business can improve unless it pays the closest possible
attention to complaints and suggestions. If there is any defect in
service then that must be instantly and rigorously investigated, but
when the suggestion is only as to style, one has to make sure whether it
is not merely a personal whim that is being voiced. Salesmen always want
to cater to whims instead of acquiring sufficient knowledge of their
product to be able to explain to the customer with the whim that what
they have will satisfy his every requirement—that is, of course,
provided what they have does satisfy these requirements.</p>
<p id="id00226">Therefore in 1909 I announced one morning, without any previous warning,
that in the future we were going to build only one model, that the model
was going to be "Model T," and that the chassis would be exactly the
same for all cars, and I remarked:</p>
<p id="id00227">"Any customer can have a car painted any colour that he wants so long as
it is black."</p>
<p id="id00228">I cannot say that any one agreed with me. The selling people could not
of course see the advantages that a single model would bring about in
production. More than that, they did not particularly care. They thought
that our production was good enough as it was and there was a very
decided opinion that lowering the sales price would hurt sales, that the
people who wanted quality would be driven away and that there would be
none to replace them. There was very little conception of the motor
industry. A motor car was still regarded as something in the way of a
luxury. The manufacturers did a good deal to spread this idea. Some
clever persons invented the name "pleasure car" and the advertising
emphasized the pleasure features. The sales people had ground for their
objections and particularly when I made the following announcement:</p>
<p id="id00229">"I will build a motor car for the great multitude. It will be large
enough for the family but small enough for the individual to run and
care for. It will be constructed of the best materials, by the best men
to be hired, after the simplest designs that modern engineering can
devise. But it will be so low in price that no man making a good salary
will be unable to own one—and enjoy with his family the blessing of
hours of pleasure in God's great open spaces."</p>
<p id="id00230">This announcement was received not without pleasure. The general comment
was:</p>
<p id="id00231">"If Ford does that he will be out of business in six months."</p>
<p id="id00232">The impression was that a good car could not be built at a low price,
and that, anyhow, there was no use in building a low-priced car because
only wealthy people were in the market for cars. The 1908-1909 sales of
more than ten thousand cars had convinced me that we needed a new
factory. We already had a big modern factory—the Piquette Street plant.
It was as good as, perhaps a little better than, any automobile factory
in the country. But I did not see how it was going to care for the sales
and production that were inevitable. So I bought sixty acres at Highland
Park, which was then considered away out in the country from Detroit.
The amount of ground bought and the plans for a bigger factory than the
world has ever seen were opposed. The question was already being asked:</p>
<p id="id00233">"How soon will Ford blow up?"</p>
<p id="id00234">Nobody knows how many thousand times it has been asked since. It is
asked only because of the failure to grasp that a principle rather than
an individual is at work, and the principle is so simple that it seems
mysterious.</p>
<p id="id00235">For 1909-1910, in order to pay for the new land and buildings, I
slightly raised the prices. This is perfectly justifiable and results in
a benefit, not an injury, to the purchaser. I did exactly the same thing
a few years ago—or rather, in that case I did not lower the price as is
my annual custom, in order to build the River Rouge plant. The extra
money might in each case have been had by borrowing, but then we should
have had a continuing charge upon the business and all subsequent cars
would have had to bear this charge. The price of all the models was
increased $100, with the exception of the roadster, which was increased
only $75 and of the landaulet and town car, which were increased $150
and $200 respectively. We sold 18,664 cars, and then for 1910-1911, with
the new facilities, I cut the touring car from $950 to $780 and we sold
34,528 cars. That is the beginning of the steady reduction in the price
of the cars in the face of ever-increasing cost of materials and
ever-higher wages.</p>
<p id="id00236">Contrast the year 1908 with the year 1911. The factory space increased
from 2.65 to 32 acres. The average number of employees from 1,908 to
4,110, and the cars built from a little over six thousand to nearly
thirty-five thousand. You will note that men were not employed in
proportion to the output.</p>
<p id="id00237">We were, almost overnight it seems, in great production. How did all
this come about?</p>
<p id="id00238">Simply through the application of an inevitable principle. By the
application of intelligently directed power and machinery. In a little
dark shop on a side street an old man had laboured for years making axe
handles. Out of seasoned hickory he fashioned them, with the help of a
draw shave, a chisel, and a supply of sandpaper. Carefully was each
handle weighed and balanced. No two of them were alike. The curve must
exactly fit the hand and must conform to the grain of the wood. From
dawn until dark the old man laboured. His average product was eight
handles a week, for which he received a dollar and a half each. And
often some of these were unsaleable—because the balance was not true.</p>
<p id="id00239">To-day you can buy a better axe handle, made by machinery, for a few
cents. And you need not worry about the balance. They are all alike—and
every one is perfect. Modern methods applied in a big way have not only
brought the cost of axe handles down to a fraction of their former
cost—but they have immensely improved the product.</p>
<p id="id00240">It was the application of these same methods to the making of the Ford
car that at the very start lowered the price and heightened the quality.
We just developed an idea. The nucleus of a business may be an idea.
That is, an inventor or a thoughtful workman works out a new and better
way to serve some established human need; the idea commends itself, and
people want to avail themselves of it. In this way a single individual
may prove, through his idea or discovery, the nucleus of a business. But
the creation of the body and bulk of that business is shared by everyone
who has anything to do with it. No manufacturer can say: "I built this
business"—if he has required the help of thousands of men in building
it. It is a joint production. Everyone employed in it has contributed
something to it. By working and producing they make it possible for the
purchasing world to keep coming to that business for the type of service
it provides, and thus they help establish a custom, a trade, a habit
which supplies them with a livelihood. That is the way our company grew
and just how I shall start explaining in the next chapter.</p>
<p id="id00241">In the meantime, the company had become world-wide. We had branches in
London and in Australia. We were shipping to every part of the world,
and in England particularly we were beginning to be as well known as in
America. The introduction of the car in England was somewhat difficult
on account of the failure of the American bicycle. Because the American
bicycle had not been suited to English uses it was taken for granted and
made a point of by the distributors that no American vehicle could
appeal to the British market. Two "Model A's" found their way to England
in 1903. The newspapers refused to notice them. The automobile agents
refused to take the slightest interest. It was rumoured that the
principal components of its manufacture were string and hoop wire and
that a buyer would be lucky if it held together for a fortnight! In the
first year about a dozen cars in all were used; the second was only a
little better. And I may say as to the reliability of that "Model A"
that most of them after nearly twenty years are still in some kind of
service in England.</p>
<p id="id00242">In 1905 our agent entered a "Model C" in the Scottish Reliability
Trials. In those days reliability runs were more popular in England than
motor races. Perhaps there was no inkling that after all an automobile
was not merely a toy. The Scottish Trials was over eight hundred miles
of hilly, heavy roads. The Ford came through with only one involuntary
stop against it. That started the Ford sales in England. In that same
year Ford taxicabs were placed in London for the first time. In the next
several years the sales began to pick up. The cars went into every
endurance and reliability test and won every one of them. The Brighton
dealer had ten Fords driven over the South Downs for two days in a kind
of steeplechase and every one of them came through. As a result six
hundred cars were sold that year. In 1911 Henry Alexander drove a "Model
T" to the top of Ben Nevis, 4,600 feet. That year 14,060 cars were sold
in England, and it has never since been necessary to stage any kind of a
stunt. We eventually opened our own factory at Manchester; at first it
was purely an assembling plant. But as the years have gone by we have
progressively made more and more of the car.</p>
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