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These are the user uploaded subtitles that are being translated: 1 00:00:02,137 --> 00:00:05,103 --captions by vitac-- Www.Vitac.Com 2 00:00:05,103 --> 00:00:08,103 Captions paid for by Discovery communications 3 00:00:23,517 --> 00:00:26,206 Narrator: Today on "How it's made"... 4 00:00:26,206 --> 00:00:28,068 Aluminum foil... 5 00:00:32,000 --> 00:00:33,482 ...Snowboards... 6 00:00:37,620 --> 00:00:39,241 ...Contact lenses... 7 00:00:43,275 --> 00:00:44,965 ...And bread. 8 00:00:55,241 --> 00:00:58,000 Aluminum foil Has a multitude of uses, 9 00:00:58,000 --> 00:00:59,827 From heating something up In the oven 10 00:00:59,827 --> 00:01:03,448 To keeping something cold In the fridge. 11 00:01:03,448 --> 00:01:07,206 But have you ever wondered how A huge block of solid aluminum 12 00:01:07,206 --> 00:01:10,517 Gets transformed into A paper-thin sheet of foil? 13 00:01:14,931 --> 00:01:16,931 The manufacture of aluminum foil 14 00:01:16,931 --> 00:01:19,137 Requires The repeated thinning out 15 00:01:19,137 --> 00:01:20,896 Of a large block of aluminum. 16 00:01:20,896 --> 00:01:24,034 We begin by melting ingots Of 100%-pure aluminum 17 00:01:24,034 --> 00:01:25,827 In a natural-gas furnace. 18 00:01:25,827 --> 00:01:27,965 These ingots, called "Pigs," 19 00:01:27,965 --> 00:01:31,586 Are essential in alloys With zinc, titanium, and silica. 20 00:01:31,586 --> 00:01:35,241 It takes 3 to 8 hours to melt 30 tons of aluminum 21 00:01:35,241 --> 00:01:37,068 In this remelting furnace, 22 00:01:37,068 --> 00:01:42,137 Which operates At 1,380 degrees fahrenheit. 23 00:01:42,137 --> 00:01:44,482 The fusion temperature Of aluminum 24 00:01:44,482 --> 00:01:47,517 Is 1,220 degrees fahrenheit. 25 00:01:47,517 --> 00:01:50,275 A portion of aluminum Is poured into this small mold 26 00:01:50,275 --> 00:01:51,275 To make a sample. 27 00:01:51,275 --> 00:01:53,103 Solidifying in just seconds, 28 00:01:53,103 --> 00:01:55,758 The sample allows for testing To verify the contents 29 00:01:55,758 --> 00:01:58,034 Of the prepared alloy. 30 00:01:58,034 --> 00:02:01,034 Molten aluminum Runs in a movable trough 31 00:02:01,034 --> 00:02:04,724 Located above the tapping well. 32 00:02:04,724 --> 00:02:06,931 At this stage, Impurities are filtered out 33 00:02:06,931 --> 00:02:09,206 In special receptacles. 34 00:02:11,931 --> 00:02:13,862 The molds are cooled with water 35 00:02:13,862 --> 00:02:16,931 To accelerate the solidification Of the molten aluminum. 36 00:02:16,931 --> 00:02:21,034 Ingots are unmolded And are ready for milling. 37 00:02:21,034 --> 00:02:24,310 Each ingot is massive, Measuring 14 feet in length, 38 00:02:24,310 --> 00:02:28,413 5 feet in width, And 18 inches thick. 39 00:02:28,413 --> 00:02:30,931 It weighs a whopping 8 tons, 40 00:02:30,931 --> 00:02:33,310 So it has to be handled By overhead cranes 41 00:02:33,310 --> 00:02:37,103 And placed on special plates. 42 00:02:37,103 --> 00:02:39,517 This crust-removing machine 43 00:02:39,517 --> 00:02:42,275 Removes 1/10 of an inch Of the ingot's thickness. 44 00:02:42,275 --> 00:02:44,000 Impurities are eliminated 45 00:02:44,000 --> 00:02:46,413 To achieve a perfectly Smooth finish. 46 00:02:46,413 --> 00:02:49,620 All traces of the liquid used To cool the decrusting knives 47 00:02:49,620 --> 00:02:51,896 Have to be eliminated. 48 00:02:51,896 --> 00:02:54,620 The many steps in the thinning Of the ingot begin. 49 00:02:54,620 --> 00:02:57,000 First, The aluminum block is crushed 50 00:02:57,000 --> 00:02:58,931 By the hot mill rollers. 51 00:03:02,517 --> 00:03:04,758 Temperatures in the rollers 52 00:03:04,758 --> 00:03:08,482 Are between 850 And 1,000 degrees fahrenheit. 53 00:03:08,482 --> 00:03:11,137 Pressure on the ingot Is continually verified 54 00:03:11,137 --> 00:03:12,620 By a technician. 55 00:03:12,620 --> 00:03:16,275 If the pressure is too great, The technician will lower it. 56 00:03:16,275 --> 00:03:17,931 The heat is so high 57 00:03:17,931 --> 00:03:21,034 That the ingot risks sticking To the mill's roller. 58 00:03:21,034 --> 00:03:23,620 To prevent this, everything Is cooled with a liquid 59 00:03:23,620 --> 00:03:27,068 That's 95% water and 5% oil. 60 00:03:34,000 --> 00:03:36,793 Starting from a thickness Of 18 inches, 61 00:03:36,793 --> 00:03:40,103 The ingot becomes increasingly Thinner with each pass-through. 62 00:03:40,103 --> 00:03:41,827 Depending on requirements, 63 00:03:41,827 --> 00:03:46,344 The ingot will go through the Machine between 12 and 16 times. 64 00:03:46,344 --> 00:03:49,482 The ingot now measures About 3 inches in thickness. 65 00:03:49,482 --> 00:03:53,310 It has to get down To just 2/10 of an inch. 66 00:03:57,896 --> 00:04:01,275 At this stage, the ingot Is about 2 inches thick 67 00:04:01,275 --> 00:04:04,000 And measures Almost 30 feet in length. 68 00:04:04,000 --> 00:04:08,448 This conveyor transports the Plate during its milling stages. 69 00:04:16,620 --> 00:04:20,275 The ingot has become a sheet 2/10 of an inch thick. 70 00:04:20,275 --> 00:04:23,103 It is sufficiently thin To proceed to spooling, 71 00:04:23,103 --> 00:04:24,896 Where it spools onto itself 72 00:04:24,896 --> 00:04:27,275 Before being sent To the cold rolling mill. 73 00:04:27,275 --> 00:04:30,413 There, its thickness will be Reduced still further. 74 00:04:33,586 --> 00:04:36,862 The aluminum sheet Has become very thin now 75 00:04:36,862 --> 00:04:38,517 And risks being broken 76 00:04:38,517 --> 00:04:40,758 By the tension needed For cold rolling. 77 00:04:40,758 --> 00:04:43,827 So the sheet is doubled To avoid this breakage. 78 00:04:43,827 --> 00:04:46,793 One final reduction in the mill, 79 00:04:46,793 --> 00:04:48,689 And the sheet Will have the thickness 80 00:04:48,689 --> 00:04:50,310 Required by the customer. 81 00:04:50,310 --> 00:04:52,655 A liquid coolant is used To prevent the foil 82 00:04:52,655 --> 00:04:55,310 From sticking to the rollers. 83 00:04:55,310 --> 00:04:57,862 Since the edges Of the foil sheet 84 00:04:57,862 --> 00:05:00,379 Are lightly damaged And crinkled, 85 00:05:00,379 --> 00:05:04,275 A knife removes a strip 4/10 of an inch wide. 86 00:05:07,862 --> 00:05:11,000 Finally, the roll Is cut to the desired width, 87 00:05:11,000 --> 00:05:15,413 And one huge ingot has produced Nearly 8 miles of foil. 88 00:05:29,103 --> 00:05:31,482 Narrator: if you've ever Tried snowboarding, 89 00:05:31,482 --> 00:05:34,310 You've probably discovered That those cool moves 90 00:05:34,310 --> 00:05:38,586 Aren't quite as easy As the pros make it look. 91 00:05:38,586 --> 00:05:42,137 Learning to maneuver a snowboard Is a long and involved process, 92 00:05:42,137 --> 00:05:43,827 And it's much the same 93 00:05:43,827 --> 00:05:47,586 When it comes to manufacturing These surfboards for snow. 94 00:05:52,931 --> 00:05:56,965 The snowboard is the delight Of winter-sports enthusiasts. 95 00:05:56,965 --> 00:05:59,586 Its core is made Of a thin sheet of wood. 96 00:05:59,586 --> 00:06:01,482 Various kinds of woods are used, 97 00:06:01,482 --> 00:06:04,068 Depending on the type Of board being made. 98 00:06:07,896 --> 00:06:10,862 Bindings have to be firmly Attached to the board. 99 00:06:10,862 --> 00:06:12,620 Holes are drilled for inserts, 100 00:06:12,620 --> 00:06:14,724 To which bindings Will be secured. 101 00:06:14,724 --> 00:06:19,517 A template allows the holes To be precisely drilled. 102 00:06:19,517 --> 00:06:23,310 Planing reduces the board To the required thickness. 103 00:06:23,310 --> 00:06:26,862 A thick board is obviously More rigid than a thin one. 104 00:06:32,448 --> 00:06:36,137 A shaping procedure Refines the board's contours. 105 00:06:36,137 --> 00:06:39,689 At this point, the board Is still perfectly flat 106 00:06:39,689 --> 00:06:41,931 With no curvature. 107 00:06:45,896 --> 00:06:50,206 The boards are then stored Upright to await the next step. 108 00:06:55,965 --> 00:06:59,103 Now they must secure The aluminum inserts, 109 00:06:59,103 --> 00:07:02,862 Which will be embedded In the wood. 110 00:07:02,862 --> 00:07:04,689 This thin sheet of fiberglass 111 00:07:04,689 --> 00:07:07,344 Will create better support For the inserts. 112 00:07:07,344 --> 00:07:09,793 Therefore, They will be more solid. 113 00:07:15,206 --> 00:07:17,517 To make working on it easier, 114 00:07:17,517 --> 00:07:21,000 The board is securely Held in place by clamps. 115 00:07:21,000 --> 00:07:24,000 Epoxy, An extremely strong adhesive 116 00:07:24,000 --> 00:07:26,413 Often used With composite materials, 117 00:07:26,413 --> 00:07:29,275 Is applied to the fiberglass At room temperature. 118 00:07:29,275 --> 00:07:32,517 It is essential To remove any excess epoxy, 119 00:07:32,517 --> 00:07:34,275 As well as eliminate All air bubbles 120 00:07:34,275 --> 00:07:36,793 So there will be A good adherence. 121 00:07:40,586 --> 00:07:42,758 As for the top part Of the board, 122 00:07:42,758 --> 00:07:48,000 It's made of a resistant plastic Applied by silk-screening. 123 00:07:48,000 --> 00:07:52,517 In silk-screening, ink is spread By this little squeegee. 124 00:07:52,517 --> 00:07:54,965 This application Is called a pass. 125 00:07:54,965 --> 00:07:57,517 Colors have to be applied One at a time. 126 00:07:57,517 --> 00:08:01,172 The inks must dry for several Hours between each coat. 127 00:08:03,793 --> 00:08:06,103 Now the board must be curved. 128 00:08:06,103 --> 00:08:07,965 A cover is placed on the mold. 129 00:08:07,965 --> 00:08:09,586 When the mold is closed, 130 00:08:09,586 --> 00:08:12,000 The board is given The desired curve. 131 00:08:12,000 --> 00:08:16,344 Heat trapped in the mold Makes the epoxy set and harden. 132 00:08:18,758 --> 00:08:20,827 The board comes out of the mold, 133 00:08:20,827 --> 00:08:25,000 And any excess epoxy and wood Are removed by a band saw. 134 00:08:25,000 --> 00:08:26,931 To achieve a perfect cut, 135 00:08:26,931 --> 00:08:29,793 The saw blade is changed Every 50 boards. 136 00:08:29,793 --> 00:08:33,379 It's highly precise work And totally manual. 137 00:08:47,379 --> 00:08:50,724 They apply, again by Silk-screening, another coat, 138 00:08:50,724 --> 00:08:52,275 Then another color. 139 00:08:52,275 --> 00:08:54,275 This time, red. 140 00:09:09,724 --> 00:09:12,275 The snowboard must now Be protected. 141 00:09:12,275 --> 00:09:15,413 A protecting varnish flows As a thin curtain. 142 00:09:15,413 --> 00:09:17,689 The board passes Beneath this curtain 143 00:09:17,689 --> 00:09:21,068 And then moves into a dryer For a six-hour stay. 144 00:09:27,379 --> 00:09:31,103 Sanding removes surplus varnish From the edges of the board. 145 00:09:31,103 --> 00:09:33,551 New holes are pierced Into the board 146 00:09:33,551 --> 00:09:37,448 To locate the inserts installed At the beginning of production. 147 00:09:39,896 --> 00:09:42,310 This sander removes Imperfections 148 00:09:42,310 --> 00:09:43,931 In the hardened varnish 149 00:09:43,931 --> 00:09:47,137 And prepares the board For its second varnish coating. 150 00:09:47,137 --> 00:09:51,379 Then the plastic base is sanded To obtain the desired finish. 151 00:09:51,379 --> 00:09:55,137 The board is checked to see That it's perfectly flat. 152 00:09:55,137 --> 00:09:57,379 A razor blade verifies That the different coats 153 00:09:57,379 --> 00:10:00,103 Are well-adhered to one another. 154 00:10:00,103 --> 00:10:03,586 Certain boards get an engraved Aluminum insert -- 155 00:10:03,586 --> 00:10:06,137 A luxury touch. 156 00:10:06,137 --> 00:10:09,034 The board is now ready For action. 157 00:10:09,034 --> 00:10:12,724 This facility turns out over 500 snowboards per day 158 00:10:12,724 --> 00:10:14,896 In 30 different models. 159 00:10:24,896 --> 00:10:27,551 Narrator: people who have Defective vision 160 00:10:27,551 --> 00:10:29,206 Can always wear glasses, 161 00:10:29,206 --> 00:10:32,896 But in many cases, there's A less-noticeable alternative. 162 00:10:32,896 --> 00:10:35,655 Contact lenses Correct faulty vision 163 00:10:35,655 --> 00:10:38,862 Without anyone knowing The wearer even has them on. 164 00:10:38,862 --> 00:10:42,068 What goes into making These tiny optical aids 165 00:10:42,068 --> 00:10:44,379 Is really eye-catching. 166 00:10:49,206 --> 00:10:53,689 Contact lenses have been In existence for over a century. 167 00:10:53,689 --> 00:10:55,517 At first completely rigid, 168 00:10:55,517 --> 00:10:59,517 They have become gas-permeable And as flexible as gelatin. 169 00:10:59,517 --> 00:11:01,965 These small polyhema disks Are used 170 00:11:01,965 --> 00:11:05,517 To make soft polymer contact Lenses in a variety of colors. 171 00:11:05,517 --> 00:11:08,034 We see here A patient's prescription, 172 00:11:08,034 --> 00:11:10,827 Essential to the fabrication Of lenses. 173 00:11:10,827 --> 00:11:12,172 The process begins 174 00:11:12,172 --> 00:11:14,344 With data processing control Of the shaping. 175 00:11:14,344 --> 00:11:17,862 Data is supplied by computer, Which controls a digital lathe. 176 00:11:17,862 --> 00:11:21,517 They begin by shaping The inner curvature of the lens. 177 00:11:21,517 --> 00:11:25,241 This digital lathe, rotating At 6,000 revolutions per minute, 178 00:11:25,241 --> 00:11:27,793 Is equipped with An industrial diamond. 179 00:11:27,793 --> 00:11:29,413 It shapes the inner surface -- 180 00:11:29,413 --> 00:11:31,482 The part That touches the cornea. 181 00:11:31,482 --> 00:11:34,551 It must be free from any Abrasions and imperfections 182 00:11:34,551 --> 00:11:37,620 And is polished with A super-fine abrasive paste. 183 00:11:37,620 --> 00:11:39,689 Polishing is a crucial step 184 00:11:39,689 --> 00:11:44,310 Because it assures excellent Comfort and perfect vision. 185 00:11:44,310 --> 00:11:47,034 A technician measures Lens thickness 186 00:11:47,034 --> 00:11:50,344 With an extremely precise gauge. 187 00:11:50,344 --> 00:11:52,620 They now shape The outer surface, 188 00:11:52,620 --> 00:11:54,862 The part that touches The eyelid. 189 00:11:54,862 --> 00:11:57,103 The lens is glued With a special warm wax, 190 00:11:57,103 --> 00:11:58,793 When the lens is completed, 191 00:11:58,793 --> 00:12:03,620 An ultrasound device Will remove the wax. 192 00:12:03,620 --> 00:12:07,793 The wax takes on the desired Shape in just seconds. 193 00:12:18,931 --> 00:12:22,137 The comfort of a lens is also Determined by its thickness. 194 00:12:22,137 --> 00:12:24,000 It must be as thin as possible 195 00:12:24,000 --> 00:12:26,379 While retaining Sufficient solidity. 196 00:12:26,379 --> 00:12:29,068 They begin by shaping The outer diameter of the lens, 197 00:12:29,068 --> 00:12:31,758 Which takes only a few seconds. 198 00:12:41,103 --> 00:12:44,103 They now polish the outer Surface of the lens. 199 00:12:44,103 --> 00:12:46,413 This polishing, Done at high speed, 200 00:12:46,413 --> 00:12:49,137 Calls for an abrasive paste, Some oil, 201 00:12:49,137 --> 00:12:53,379 And a small polyester Cotton ball. 202 00:12:53,379 --> 00:12:57,620 This apparatus polishes several Lenses at the same time -- 203 00:12:57,620 --> 00:13:00,275 A step that takes Only 60 seconds. 204 00:13:00,275 --> 00:13:04,137 With everything computerized, Quality is incomparable. 205 00:13:07,724 --> 00:13:11,827 A technician then polishes The rims of the lens. 206 00:13:16,827 --> 00:13:19,758 The polymer is hydrated To make it flexible. 207 00:13:19,758 --> 00:13:21,379 Lenses remain immersed 208 00:13:21,379 --> 00:13:25,206 In a balanced ph saline solution For 24 hours. 209 00:13:25,206 --> 00:13:28,655 The lens becomes engorged With liquid and expands, 210 00:13:28,655 --> 00:13:31,241 Reaching the desired Proportions. 211 00:13:42,896 --> 00:13:45,965 This optical topographer Is used to verify, 212 00:13:45,965 --> 00:13:47,862 Through color distribution, 213 00:13:47,862 --> 00:13:50,379 Whether the spread Of optical power in the lens 214 00:13:50,379 --> 00:13:53,586 Is precise enough To assure perfect vision. 215 00:13:57,310 --> 00:14:01,379 And now we proceed with another Important testing procedure. 216 00:14:01,379 --> 00:14:04,724 The soft, fragile lenses Are always handled 217 00:14:04,724 --> 00:14:06,482 With the greatest of care. 218 00:14:10,068 --> 00:14:12,206 This unit, Called a frontofocometer, 219 00:14:12,206 --> 00:14:13,793 Is a metering device 220 00:14:13,793 --> 00:14:16,724 Which verifies the optical Precision of the lens. 221 00:14:21,931 --> 00:14:25,724 The lenses are now completed And are cleaned. 222 00:14:25,724 --> 00:14:29,310 They're stored in containers Filled with a salt solution. 223 00:14:32,758 --> 00:14:35,586 This little vial that We might find at optometrists' 224 00:14:35,586 --> 00:14:39,655 Is sealed with a silicone cap And another of aluminum. 225 00:14:42,000 --> 00:14:44,620 These vials are placed In a sterilizer 226 00:14:44,620 --> 00:14:47,172 At temperatures Of 250 degrees fahrenheit 227 00:14:47,172 --> 00:14:49,000 For an hour and a half. 228 00:14:49,000 --> 00:14:50,758 The contents will remain sterile 229 00:14:50,758 --> 00:14:54,137 For up to seven years If not opened. 230 00:14:54,137 --> 00:14:57,379 The production of a lens Involves 14 steps. 231 00:14:57,379 --> 00:15:00,689 If we exclude the rather lengthy Hydration process, 232 00:15:00,689 --> 00:15:04,137 Actual lens production Requires only 15 minutes. 233 00:15:04,137 --> 00:15:07,931 They can produce almost 1,000 contact lenses per day -- 234 00:15:07,931 --> 00:15:11,068 All made from these tiny Colored disks. 235 00:15:22,965 --> 00:15:27,000 Narrator: it's a staple For people all over the world. 236 00:15:27,000 --> 00:15:30,655 Smothered in butter and jelly Or dipped in gravy, 237 00:15:30,655 --> 00:15:34,000 It's a delicious treat That's hard to resist. 238 00:15:34,000 --> 00:15:37,413 And we're willing to bet You can't resist the opportunity 239 00:15:37,413 --> 00:15:42,068 To find out what goes into The making of your daily bread. 240 00:15:48,344 --> 00:15:52,310 Over 3,000 years ago, In the time of king tut, 241 00:15:52,310 --> 00:15:56,965 Egyptians were already baking 40 varieties of leaven bread. 242 00:15:56,965 --> 00:16:00,137 The greeks' contribution To this history was the oven 243 00:16:00,137 --> 00:16:03,103 And 70 varieties Of flavored breads -- 244 00:16:03,103 --> 00:16:06,931 Breads so good that the romans Took the greek bakers to rome 245 00:16:06,931 --> 00:16:09,448 And their ovens to gaul. 246 00:16:09,448 --> 00:16:11,344 By the middle ages, 247 00:16:11,344 --> 00:16:15,000 Bread had become the primary Food of western europe. 248 00:16:25,586 --> 00:16:28,482 Multigrain bread is made From several ingredients 249 00:16:28,482 --> 00:16:31,931 Such as flaxseed, buckwheat, Soy, and millet. 250 00:16:31,931 --> 00:16:34,620 This protective grill Prevents foreign matter 251 00:16:34,620 --> 00:16:37,172 From accidentally falling Into the recipe mix -- 252 00:16:37,172 --> 00:16:40,862 A recipe that calls For a half a ton of flour. 253 00:16:40,862 --> 00:16:43,620 The ingredients, Ground in a mill, 254 00:16:43,620 --> 00:16:47,172 Are kept in these 36 enormous containers. 255 00:16:51,586 --> 00:16:54,137 We begin by mixing The ingredients together. 256 00:16:54,137 --> 00:16:57,275 These kneading troughs Are used to ferment the yeast, 257 00:16:57,275 --> 00:16:59,620 A step which takes three hours. 258 00:16:59,620 --> 00:17:03,275 The fermenting yeast makes The dough rise considerably. 259 00:17:10,655 --> 00:17:15,103 This huge mixer kneads the dough For about eight minutes. 260 00:17:23,344 --> 00:17:25,344 When thoroughly homogenous, 261 00:17:25,344 --> 00:17:28,103 The contents are emptied Into a large tub. 262 00:17:28,103 --> 00:17:31,103 The dough weighs A little over a ton. 263 00:17:34,724 --> 00:17:37,310 The dough is loaded onto a slide 264 00:17:37,310 --> 00:17:39,758 Situated Above the dough divider. 265 00:17:42,655 --> 00:17:44,827 At the bottom of the machine, 266 00:17:44,827 --> 00:17:47,379 A small hole Allows the dough to escape. 267 00:17:47,379 --> 00:17:49,344 Two mechanically operated arms 268 00:17:49,344 --> 00:17:52,000 Cut the dough pieces Into equal lengths. 269 00:17:52,000 --> 00:17:54,620 It forms 192 of these a minute. 270 00:17:54,620 --> 00:17:57,000 The dough then falls Onto a conveyor. 271 00:18:02,482 --> 00:18:04,965 Here dough pieces Are rolled into balls, 272 00:18:04,965 --> 00:18:07,379 Which can be more easily worked. 273 00:18:11,482 --> 00:18:13,172 The doughballs are floured 274 00:18:13,172 --> 00:18:15,689 To prevent them from sticking During their transport 275 00:18:15,689 --> 00:18:17,620 And when they're molded. 276 00:18:17,620 --> 00:18:19,965 Here the balls of dough Leave the divider 277 00:18:19,965 --> 00:18:21,448 And go to the molder. 278 00:18:21,448 --> 00:18:23,724 During transport, The dough can rest, 279 00:18:23,724 --> 00:18:25,551 Allowing the yeast to act. 280 00:18:29,379 --> 00:18:33,034 The dough is then folded And rolled. 281 00:18:33,034 --> 00:18:35,241 The machine can handle Three per second 282 00:18:35,241 --> 00:18:38,862 For a total of 11,500 an hour. 283 00:18:38,862 --> 00:18:41,931 The dough is rolled out To the exact size 284 00:18:41,931 --> 00:18:44,068 And falls into baking molds. 285 00:18:47,241 --> 00:18:50,379 Here we see the making Of hot dog rolls. 286 00:18:50,379 --> 00:18:53,310 These little doughballs Have to be shaped lengthwise 287 00:18:53,310 --> 00:18:55,620 And fermented before molding. 288 00:19:11,103 --> 00:19:16,137 Here the hog dog rolls Are being machine-molded. 289 00:19:16,137 --> 00:19:18,620 Dough pieces Must not touch one another, 290 00:19:18,620 --> 00:19:22,000 So they're spaced apart By a small mechanical arm. 291 00:19:22,000 --> 00:19:25,655 Now we go back To multigrain bread production. 292 00:19:29,068 --> 00:19:31,862 Squatted down at the bottom Of the molds, 293 00:19:31,862 --> 00:19:33,758 The dough pieces Go into the proofer, 294 00:19:33,758 --> 00:19:37,000 Where they rise for an hour At 110 degrees fahrenheit 295 00:19:37,000 --> 00:19:39,344 And at 70% humidity. 296 00:19:39,344 --> 00:19:44,172 Then they bake for 20 minutes At 490 degrees. 297 00:19:44,172 --> 00:19:48,724 When finally baked, the loaves End up with a nice golden color. 298 00:19:53,241 --> 00:19:57,172 A vacuum system draws The loaves from their molds. 299 00:19:57,172 --> 00:20:00,310 They're then placed On a conveyor to cool. 300 00:20:11,103 --> 00:20:14,206 A guidance system takes care Of carrying the breads 301 00:20:14,206 --> 00:20:17,000 To various sections Of the bakery. 302 00:20:17,000 --> 00:20:20,379 When well-cooled, Breads go to the slicer, 303 00:20:20,379 --> 00:20:22,758 Which cuts 65 loaves a minute. 304 00:20:22,758 --> 00:20:25,275 They are sliced by 7-foot-wide 305 00:20:25,275 --> 00:20:27,758 And 16-inch-long Steel saw blades. 306 00:20:27,758 --> 00:20:31,172 These blades are changed Every two weeks. 307 00:20:35,655 --> 00:20:39,931 Sliced loaves are automatically Packed at 65 per minute. 308 00:20:39,931 --> 00:20:41,758 They're now ready for shipping. 309 00:20:41,758 --> 00:20:44,827 Some 5 1/2 hours have passed 310 00:20:44,827 --> 00:20:47,103 Between preparation Of the dry flour 311 00:20:47,103 --> 00:20:50,206 And packaging Of the baked bread. 312 00:20:56,172 --> 00:20:58,517 If you have any comments About the show 313 00:20:58,517 --> 00:21:01,482 Or if you'd like to suggest Topics for future shows, 314 00:21:01,482 --> 00:21:03,068 Drop us a line at... 25311