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These are the user uploaded subtitles that are being translated: 1 00:00:02,000 --> 00:00:05,000 --captions by vitac-- Www.Vitac.Com 2 00:00:05,000 --> 00:00:08,000 Captions paid for by Discovery communications 3 00:00:51,586 --> 00:00:53,896 Narrator: At many work sites, 4 00:00:53,896 --> 00:00:56,172 Grapples do All the heavy lifting. 5 00:00:56,172 --> 00:00:57,965 Dangling from crane booms, 6 00:00:57,965 --> 00:01:01,379 These huge mechanized claws Move mountains of material 7 00:01:01,379 --> 00:01:03,137 One load at a time. 8 00:01:03,137 --> 00:01:05,517 Some are equipped With powerful electromagnets 9 00:01:05,517 --> 00:01:07,310 For gathering Small bits of metal 10 00:01:07,310 --> 00:01:09,034 Along with the large ones. 11 00:01:12,620 --> 00:01:17,172 Not much can escape the grasp Of the mighty grapple. 12 00:01:17,172 --> 00:01:20,344 A magnet at the center pulls Metal from the scrap heap, 13 00:01:20,344 --> 00:01:22,758 While four fingers Dig into the pile. 14 00:01:22,758 --> 00:01:27,000 It then transfers the load Of steel for recycling. 15 00:01:27,000 --> 00:01:30,344 It actually takes Some of that recycled steel 16 00:01:30,344 --> 00:01:34,137 To make a grapple In the form of steel plate. 17 00:01:34,137 --> 00:01:37,103 A computer-guided flame Burns through the steel 18 00:01:37,103 --> 00:01:39,758 To cut out The various part shapes. 19 00:01:39,758 --> 00:01:42,103 It will take Approximately 50 pieces 20 00:01:42,103 --> 00:01:46,172 In a range of shapes and Thicknesses to make one grapple. 21 00:01:50,172 --> 00:01:53,206 A press brake repeatedly rams One of the parts 22 00:01:53,206 --> 00:01:56,793 While an operator adjusts it Forward between thrusts. 23 00:01:56,793 --> 00:02:00,103 The process curls the part To give it a claw-like profile. 24 00:02:00,103 --> 00:02:03,068 It's the basic shape Of a grapple finger. 25 00:02:03,068 --> 00:02:05,034 Using a template, 26 00:02:05,034 --> 00:02:08,034 He checks the curvature To confirm it's on target. 27 00:02:08,034 --> 00:02:10,965 He'll curl four fingers Per grapple. 28 00:02:13,000 --> 00:02:15,724 Meanwhile, a welder pieces Together the grapple's core, 29 00:02:15,724 --> 00:02:18,068 Working within a special fixture 30 00:02:18,068 --> 00:02:20,827 That allows him To assemble it precisely. 31 00:02:20,827 --> 00:02:22,896 After he tack-welds them Together, 32 00:02:22,896 --> 00:02:24,793 It's over to the robot. 33 00:02:24,793 --> 00:02:26,241 It does the permanent welds 34 00:02:26,241 --> 00:02:29,758 As the core slowly rotates In a special device. 35 00:02:33,379 --> 00:02:36,413 They hoist the welded grapple Core over to the magnet 36 00:02:36,413 --> 00:02:39,413 And feed its main wire Up through the core. 37 00:02:39,413 --> 00:02:40,931 They lower the core, 38 00:02:40,931 --> 00:02:44,137 And it fits onto metal dowels Protruding from the magnet. 39 00:02:44,137 --> 00:02:47,172 This allows them To align the two precisely. 40 00:02:47,172 --> 00:02:49,655 They thread high-strength bolts Into the dowels 41 00:02:49,655 --> 00:02:51,931 To secure the assembly. 42 00:02:55,034 --> 00:02:57,241 Next, they place A turntable bearing 43 00:02:57,241 --> 00:02:59,379 On the grapple's top flange. 44 00:02:59,379 --> 00:03:00,965 This bearing Is an important part 45 00:03:00,965 --> 00:03:03,137 Of the claw-rotator mechanism. 46 00:03:03,137 --> 00:03:06,344 They fasten the bearing's Outer ring to the flange 47 00:03:06,344 --> 00:03:07,724 With numerous bolts, 48 00:03:07,724 --> 00:03:09,758 Torqueing each one tightly To withstand the spinning action 49 00:03:09,758 --> 00:03:13,034 Of the bearing's inner ring. 50 00:03:13,034 --> 00:03:15,034 As demonstrated here, 51 00:03:15,034 --> 00:03:17,103 The bearing turns In both directions 52 00:03:17,103 --> 00:03:20,413 To give the grapple's claw Movements a lot of flexibility. 53 00:03:25,172 --> 00:03:27,586 A worker now lowers The upper rotator assembly 54 00:03:27,586 --> 00:03:29,793 Onto the turntable bearing. 55 00:03:29,793 --> 00:03:31,827 This assembly holds The rotator's motor 56 00:03:31,827 --> 00:03:34,758 And the manifold That feeds hydraulic fluid 57 00:03:34,758 --> 00:03:37,379 To the cylinders That power the claw. 58 00:03:39,965 --> 00:03:43,137 They now slide the hydraulic Cylinders into their slots 59 00:03:43,137 --> 00:03:45,827 And lock them in place With pivot pins. 60 00:03:48,827 --> 00:03:51,206 They install a total Of four cylinders. 61 00:03:51,206 --> 00:03:53,620 Each one will power One grapple finger, 62 00:03:53,620 --> 00:03:58,620 And together, they'll open And close the grapple claw. 63 00:03:58,620 --> 00:04:02,620 They connect the hydraulic feed Lines to the cylinders 64 00:04:02,620 --> 00:04:05,448 And reinforce the connection With a four-bolt flange 65 00:04:05,448 --> 00:04:08,448 That can handle the pressure Of the hydraulic fluid. 66 00:04:16,000 --> 00:04:19,172 They guide each steel finger Into slots in the grapple core 67 00:04:19,172 --> 00:04:20,620 And align them correctly. 68 00:04:24,724 --> 00:04:27,344 They slide a pivot pin Into the attachment holes 69 00:04:27,344 --> 00:04:28,896 To link the two. 70 00:04:28,896 --> 00:04:31,241 This pin will also act As a kind of hinge 71 00:04:31,241 --> 00:04:34,034 As the finger opens and closes. 72 00:04:34,034 --> 00:04:36,103 They fasten the pivot pin To the grapple 73 00:04:36,103 --> 00:04:38,620 With a nut that's split In one spot. 74 00:04:38,620 --> 00:04:40,482 This split enables it To be squeezed tightly 75 00:04:40,482 --> 00:04:43,379 Around the large pin With a small bolt. 76 00:04:48,793 --> 00:04:51,758 They attach the hydraulic Cylinders to the claw fingers 77 00:04:51,758 --> 00:04:53,689 With more large steel pins. 78 00:04:57,448 --> 00:04:59,896 And they're now ready To power the grapple claw 79 00:04:59,896 --> 00:05:02,448 And test the gripping action. 80 00:05:02,448 --> 00:05:05,586 The four tines, or fingers, Open and close in unison. 81 00:05:05,586 --> 00:05:09,241 The tips mate correctly. There's no overlap. 82 00:05:09,241 --> 00:05:11,172 They roll paint Onto the company emblem, 83 00:05:11,172 --> 00:05:14,827 And this grapple claw Is now ready for the jobsite. 84 00:05:17,896 --> 00:05:20,551 It weighs 4.5 tons, 85 00:05:20,551 --> 00:05:22,689 And just dropping it on a car 86 00:05:22,689 --> 00:05:24,620 Will crumple it Like a piece of tissue paper. 87 00:05:27,655 --> 00:05:32,620 It takes about 150 hours To manufacture a grapple claw 88 00:05:32,620 --> 00:05:35,034 That can get a grip On the really big jobs 89 00:05:35,034 --> 00:05:36,827 In a matter of seconds. 90 00:05:51,689 --> 00:05:54,000 Narrator: whether it's Boysenberry in your muffin, 91 00:05:54,000 --> 00:05:55,551 Hazelnut in your coffee, 92 00:05:55,551 --> 00:05:57,379 Blue cheese In your salad dressing, 93 00:05:57,379 --> 00:05:59,620 Or spearmint In your chewing gum, 94 00:05:59,620 --> 00:06:02,551 The source is usually A prepared flavoring. 95 00:06:02,551 --> 00:06:05,758 Food and drink makers typically Approach a flavorings company 96 00:06:05,758 --> 00:06:09,068 To custom-design and produce Whatever flavor they need. 97 00:06:12,689 --> 00:06:15,275 Not only do flavoring companies Produce ingredients 98 00:06:15,275 --> 00:06:16,620 For commercial use, 99 00:06:16,620 --> 00:06:19,068 They also manufacture Stand-alone flavoring products 100 00:06:19,068 --> 00:06:20,827 For retail sale, 101 00:06:20,827 --> 00:06:23,103 Such as those syrups You squirt into coffee, 102 00:06:23,103 --> 00:06:25,413 Fountain drinks, And other beverages. 103 00:06:29,310 --> 00:06:32,551 In the company's research And development laboratory, 104 00:06:32,551 --> 00:06:34,862 Flavor chemists Create each recipe, 105 00:06:34,862 --> 00:06:38,620 Drawing from an elaborate Arsenal of ingredients. 106 00:06:38,620 --> 00:06:41,482 If they're designing an orange Flavoring, for example, 107 00:06:41,482 --> 00:06:43,655 They might combine orange Essence and orange peel 108 00:06:43,655 --> 00:06:45,620 With extracts From other citrus fruits, 109 00:06:45,620 --> 00:06:47,551 Tweaking the proportions 110 00:06:47,551 --> 00:06:50,689 Until they achieve exactly The taste they're after. 111 00:06:55,448 --> 00:06:58,965 This chemist is designing Flavoring for a soft drink. 112 00:06:58,965 --> 00:07:02,241 He pours a specific amount Of his trial recipe into water, 113 00:07:02,241 --> 00:07:04,137 Then carbonates the mix 114 00:07:04,137 --> 00:07:06,275 By adding Pressurized carbon dioxide. 115 00:07:06,275 --> 00:07:08,000 Then he bottles the drink 116 00:07:08,000 --> 00:07:10,413 And sends it to the client For approval. 117 00:07:12,517 --> 00:07:14,551 Once the client gives the okay, 118 00:07:14,551 --> 00:07:17,137 Plant technicians Mix a production formula, 119 00:07:17,137 --> 00:07:19,620 Following very precise Weights and measures 120 00:07:19,620 --> 00:07:22,241 Set out in the recipe. 121 00:07:22,241 --> 00:07:25,034 Once they combine The formula's key ingredients, 122 00:07:25,034 --> 00:07:26,862 They add them To the liquid fillers -- 123 00:07:26,862 --> 00:07:28,482 Such as fruit juice and water -- 124 00:07:28,482 --> 00:07:30,655 And solvents such as ethanol. 125 00:07:30,655 --> 00:07:33,344 The solvents Trigger molecular changes 126 00:07:33,344 --> 00:07:35,965 That transform The oil-soluble key ingredients 127 00:07:35,965 --> 00:07:38,068 Into a water-soluble state. 128 00:07:38,068 --> 00:07:40,103 Without this conversion, 129 00:07:40,103 --> 00:07:42,241 The finished flavoring Would simply float on top 130 00:07:42,241 --> 00:07:45,551 Of any liquid To which it's added. 131 00:07:45,551 --> 00:07:48,172 At several points Throughout the process, 132 00:07:48,172 --> 00:07:49,689 The company's Quality-control lab 133 00:07:49,689 --> 00:07:51,965 Performs an array of tests 134 00:07:51,965 --> 00:07:54,034 To assess color, Flavor, viscosity, 135 00:07:54,034 --> 00:07:56,896 And other characteristics. 136 00:07:56,896 --> 00:08:01,103 The last ingredients to go Into the production formula, 137 00:08:01,103 --> 00:08:04,275 When the recipe calls for them, Are colorings. 138 00:08:08,206 --> 00:08:10,896 Sometimes a client wants A powdered flavoring 139 00:08:10,896 --> 00:08:12,413 Rather than a liquid one. 140 00:08:12,413 --> 00:08:14,655 So chemists Develop a liquid recipe 141 00:08:14,655 --> 00:08:16,275 That a machine Called a spray dryer 142 00:08:16,275 --> 00:08:19,103 Can process into a powder. 143 00:08:19,103 --> 00:08:20,551 In the production plant, 144 00:08:20,551 --> 00:08:23,758 Workers pour the required Quantity of production formula 145 00:08:23,758 --> 00:08:25,862 Into a large processing kettle. 146 00:08:25,862 --> 00:08:27,344 They add whatever Additional ingredients 147 00:08:27,344 --> 00:08:29,103 The recipe may call for, 148 00:08:29,103 --> 00:08:31,275 And if required, heat the mix. 149 00:08:31,275 --> 00:08:34,034 If they're making A powdered flavoring, 150 00:08:34,034 --> 00:08:35,034 Then from the kettle, 151 00:08:35,034 --> 00:08:36,551 They pour the liquid Into a mixer 152 00:08:36,551 --> 00:08:39,241 Containing water, gums, And starches. 153 00:08:39,241 --> 00:08:42,103 These keep all the ingredients Evenly blended. 154 00:08:42,103 --> 00:08:43,931 Then they open a hatch 155 00:08:43,931 --> 00:08:46,517 And drop the mix Directly into the spray dryer. 156 00:08:46,517 --> 00:08:48,344 The machine uses high pressure 157 00:08:48,344 --> 00:08:51,034 To transform the liquid Into a fine mist, 158 00:08:51,034 --> 00:08:53,413 Then heat To dry the mist particles 159 00:08:53,413 --> 00:08:55,103 Into powder particles. 160 00:08:57,620 --> 00:08:58,758 They put the powder 161 00:08:58,758 --> 00:09:00,827 Into a machine Called a ribbon blender 162 00:09:00,827 --> 00:09:06,137 And add whatever dry ingredients The flavoring recipe calls for. 163 00:09:06,137 --> 00:09:10,896 Then mixing blades slowly blend All the powders together. 164 00:09:10,896 --> 00:09:13,931 The plant sends a sample From the blender 165 00:09:13,931 --> 00:09:15,344 To the quality-control lab. 166 00:09:15,344 --> 00:09:16,620 Among other tests, 167 00:09:16,620 --> 00:09:19,275 Lab technicians put the sample Under a microscope 168 00:09:19,275 --> 00:09:22,379 To analyze the particle size, 169 00:09:22,379 --> 00:09:26,689 Which indicates how thoroughly The ingredients are blended. 170 00:09:26,689 --> 00:09:28,344 Exiting the ribbon blender, 171 00:09:28,344 --> 00:09:31,655 The finished flavoring passes Through a vibrating screen, 172 00:09:31,655 --> 00:09:34,827 A magnet, and a metal detector. 173 00:09:34,827 --> 00:09:38,413 The packaging equipment Weighs a specific quantity 174 00:09:38,413 --> 00:09:41,931 And dispenses it into cartons Lined with polyethylene. 175 00:09:41,931 --> 00:09:45,275 A suction hose vacuums What dusts up in the process, 176 00:09:45,275 --> 00:09:48,620 Because airborne powder Is an explosion hazard. 177 00:09:51,275 --> 00:09:54,103 The plant sends a sample From every batch it produces 178 00:09:54,103 --> 00:09:55,655 Back to the lab. 179 00:09:55,655 --> 00:09:59,482 Trained testers Smell and taste the sample 180 00:09:59,482 --> 00:10:02,137 And compare it To the model lab batch. 181 00:10:06,000 --> 00:10:08,103 The testers flag Any production sample 182 00:10:08,103 --> 00:10:10,241 That's even the slightest bit Off the mark, 183 00:10:10,241 --> 00:10:13,206 In which case they alert The flavor chemists, 184 00:10:13,206 --> 00:10:16,344 Who then diagnose And fix the problem. 185 00:10:16,344 --> 00:10:18,344 This procedure, 186 00:10:18,344 --> 00:10:20,620 Along with the various Quality-control measures 187 00:10:20,620 --> 00:10:22,379 Throughout The production process, 188 00:10:22,379 --> 00:10:25,827 Ensures taste consistency, Which is absolutely critical, 189 00:10:25,827 --> 00:10:28,689 Whether the prepared flavoring Is an ingredient 190 00:10:28,689 --> 00:10:30,655 In a commercially produced Food or beverage 191 00:10:30,655 --> 00:10:32,103 Or a retail flavoring 192 00:10:32,103 --> 00:10:35,758 That you squirt into or Sprinkle onto a drink or snack. 193 00:10:50,413 --> 00:10:51,689 Narrator: for centuries, 194 00:10:51,689 --> 00:10:55,379 Dog-driven sleds were a lifeline Across the frozen north, 195 00:10:55,379 --> 00:10:57,206 Delivering medicine And other supplies 196 00:10:57,206 --> 00:10:59,172 To far-flung communities. 197 00:10:59,172 --> 00:11:01,413 Today, aircraft and snowmobiles 198 00:11:01,413 --> 00:11:03,310 Have mostly taken over That work, 199 00:11:03,310 --> 00:11:05,655 And dog-sledding Has become a sport. 200 00:11:05,655 --> 00:11:09,068 And a well-made sled Is behind every winning team. 201 00:11:12,310 --> 00:11:15,551 A dog-sled race is An endurance test for the dogs, 202 00:11:15,551 --> 00:11:18,206 The driver, and the sled itself. 203 00:11:18,206 --> 00:11:20,000 A good sled is both flexible 204 00:11:20,000 --> 00:11:22,724 And sturdy enough To go the distance. 205 00:11:22,724 --> 00:11:27,103 At this factory, They make sleds from white ash. 206 00:11:27,103 --> 00:11:29,275 A worker angles The ends of vertical bars 207 00:11:29,275 --> 00:11:30,413 So they can be fitted 208 00:11:30,413 --> 00:11:32,827 To the sled's top rail And handlebar. 209 00:11:32,827 --> 00:11:35,310 These bars Are called stanchions. 210 00:11:35,310 --> 00:11:36,689 He shapes the other end of them 211 00:11:36,689 --> 00:11:39,000 So they'll fit into grooves In the sled's runner. 212 00:11:41,517 --> 00:11:43,275 All the parts of this sled Are designed 213 00:11:43,275 --> 00:11:46,586 To fit together Like pieces of a jigsaw puzzle. 214 00:11:48,310 --> 00:11:50,551 A worker Now screws aluminum rails 215 00:11:50,551 --> 00:11:53,103 Onto the bottom Of the two runners. 216 00:11:53,103 --> 00:11:56,034 He slides plastic strips Into those aluminum rails, 217 00:11:56,034 --> 00:11:58,241 Which gives the runners A smooth base 218 00:11:58,241 --> 00:12:00,965 For gliding over ice or snow. 219 00:12:00,965 --> 00:12:04,793 He secures the plastic strips At each end with screws. 220 00:12:04,793 --> 00:12:06,620 The crew Is now ready to assemble 221 00:12:06,620 --> 00:12:09,068 All the pieces of the dog sled. 222 00:12:09,068 --> 00:12:12,000 They attach metal screw eyes To the runners. 223 00:12:12,000 --> 00:12:13,827 They'll thread rope through them 224 00:12:13,827 --> 00:12:16,827 When they're ready to tie The parts of the sled together. 225 00:12:16,827 --> 00:12:19,379 All the parts of the framework 226 00:12:19,379 --> 00:12:22,379 Fit into notches Made specifically for them. 227 00:12:22,379 --> 00:12:25,724 The location of those notches Has been precisely mapped out. 228 00:12:25,724 --> 00:12:28,448 If one is even a fraction Of an inch off, 229 00:12:28,448 --> 00:12:32,620 The sled would collapse Like a house of cards. 230 00:12:32,620 --> 00:12:34,620 They measure the space Between the runners 231 00:12:34,620 --> 00:12:37,172 To confirm They're perfectly aligned, 232 00:12:37,172 --> 00:12:40,172 And now tie the joints together With nylon rope. 233 00:12:40,172 --> 00:12:42,034 These ties are called lashings, 234 00:12:42,034 --> 00:12:45,689 And there are 22 of them On this dog sled. 235 00:12:45,689 --> 00:12:48,793 Historically, lashings were made Of moose hide, 236 00:12:48,793 --> 00:12:50,827 But nylon is tougher. 237 00:12:52,172 --> 00:12:54,517 They cut the rope With a hot blade, 238 00:12:54,517 --> 00:12:57,655 Which seals the fibers So that they won't unravel. 239 00:13:01,689 --> 00:13:04,931 They tie the midpoint joints Together... 240 00:13:06,517 --> 00:13:10,206 ...And the focus then moves To the dog-sled handlebar. 241 00:13:10,206 --> 00:13:14,379 A worker glues strips of ash Together. 242 00:13:14,379 --> 00:13:17,689 The strips are thin So they can be easily bent, 243 00:13:17,689 --> 00:13:22,103 Allowing him to curl The glued layer around a u-form. 244 00:13:22,103 --> 00:13:24,862 He clamps the wood to the form, 245 00:13:24,862 --> 00:13:27,241 And the glue cures For three hours. 246 00:13:27,241 --> 00:13:29,172 It hardens into the u-shape, 247 00:13:29,172 --> 00:13:32,931 Creating The dog-sled handlebar. 248 00:13:32,931 --> 00:13:35,379 He secures the handlebar To the dog sled 249 00:13:35,379 --> 00:13:37,448 With the nylon lashings. 250 00:13:37,448 --> 00:13:41,931 The team then assembles the bed Of the sled. 251 00:13:41,931 --> 00:13:45,344 They clamp the slats into place, 252 00:13:45,344 --> 00:13:48,689 And then screw them To the framework. 253 00:13:48,689 --> 00:13:52,034 They install The sled's front bumper, 254 00:13:52,034 --> 00:13:54,827 Called the brushbrow. 255 00:13:54,827 --> 00:13:57,931 Next, a worker cuts off The metal bead of a bicycle tire 256 00:13:57,931 --> 00:14:00,310 And discards it. 257 00:14:00,310 --> 00:14:04,310 He uses the remaining tire tread To create foot pads 258 00:14:04,310 --> 00:14:06,379 By wrapping it around Pieces of thick plastic 259 00:14:06,379 --> 00:14:09,379 And screwing it into place. 260 00:14:09,379 --> 00:14:12,517 He installs a treaded pad On each runner 261 00:14:12,517 --> 00:14:14,655 To keep the driver's feet From slipping off. 262 00:14:17,482 --> 00:14:21,931 Then they install An aluminum bar brake. 263 00:14:21,931 --> 00:14:24,103 These pivot bolts Will allow this bar brake 264 00:14:24,103 --> 00:14:25,965 To be raised when not needed, 265 00:14:25,965 --> 00:14:28,724 And lowered to engage The metal talons. 266 00:14:32,172 --> 00:14:34,862 He loops a bungee cord On each side of a cross bar 267 00:14:34,862 --> 00:14:38,379 And burns off an end. 268 00:14:38,379 --> 00:14:40,793 He hooks the other end Of the cord to the brake. 269 00:14:40,793 --> 00:14:42,310 This simple Bungee-cord mechanism 270 00:14:42,310 --> 00:14:46,862 Will enable the dog-sled musher To activate the brake. 271 00:14:46,862 --> 00:14:50,275 He heat-shrinks rubber tubing Around the base of the cord 272 00:14:50,275 --> 00:14:52,896 To protect it. 273 00:14:52,896 --> 00:14:55,137 They now weave The back of the sled, 274 00:14:55,137 --> 00:14:59,241 Using nylon cord to create A basket for carrying things. 275 00:14:59,241 --> 00:15:02,931 It's big enough to hold A tired animal. 276 00:15:02,931 --> 00:15:05,517 The worker then loops And ties the bridle 277 00:15:05,517 --> 00:15:07,724 To front stanchions Beneath the sled. 278 00:15:11,551 --> 00:15:13,310 He forms a "V" as he threads it 279 00:15:13,310 --> 00:15:15,724 From the back of the sled To the front. 280 00:15:22,379 --> 00:15:24,310 He paints urethane Onto the wood, 281 00:15:24,310 --> 00:15:25,827 And even over the lashings. 282 00:15:25,827 --> 00:15:28,724 This will protect them Against wear. 283 00:15:30,931 --> 00:15:33,068 It's taken about three days 284 00:15:33,068 --> 00:15:35,482 To make this traditional Basket dog sled, 285 00:15:35,482 --> 00:15:38,206 And now it's ready to mush. 286 00:15:50,689 --> 00:15:53,793 Narrator: athletic footwear Dates back to ancient times, 287 00:15:53,793 --> 00:15:55,379 But the concept gained traction 288 00:15:55,379 --> 00:15:57,724 With the development Of treaded rubber soles 289 00:15:57,724 --> 00:16:00,137 In the early part Of the 20th century. 290 00:16:00,137 --> 00:16:01,655 These rubber-soled shoes 291 00:16:01,655 --> 00:16:05,068 Were lightweight, comfortable, And hit the ground quietly, 292 00:16:05,068 --> 00:16:07,689 Earning them The name "Sneakers." 293 00:16:12,206 --> 00:16:13,896 Design improvements 294 00:16:13,896 --> 00:16:16,137 Have broadened the appeal Of athletic shoes. 295 00:16:16,137 --> 00:16:17,965 People wear them everywhere. 296 00:16:17,965 --> 00:16:20,724 The athletic shoe Has definitely gone main street. 297 00:16:24,689 --> 00:16:26,551 Using a hydraulic press, 298 00:16:26,551 --> 00:16:29,413 This employee forces a die Through synthetic fabric 299 00:16:29,413 --> 00:16:32,000 To cut out patterns For the upper part of the shoe. 300 00:16:35,517 --> 00:16:38,965 At the next station, He punches out leather toe tips. 301 00:16:38,965 --> 00:16:41,793 The toe tip Is one of numerous cut-outs 302 00:16:41,793 --> 00:16:44,689 That add shape and structure To the synthetic upper. 303 00:16:47,000 --> 00:16:50,655 After arranging the tip parts On a nonstick tray, 304 00:16:50,655 --> 00:16:53,793 This worker places strips Of thermal resin onto them. 305 00:16:56,034 --> 00:16:59,172 She drapes a nonstick sheet Over the tray, 306 00:16:59,172 --> 00:17:02,241 Then slides it Into a hot metal press. 307 00:17:02,241 --> 00:17:05,379 The resin melts into the leather To stiffen and strengthen it. 308 00:17:09,448 --> 00:17:12,931 Another worker stamps the model Number onto the heel cutout. 309 00:17:15,137 --> 00:17:17,103 Then it's over To the sewing department, 310 00:17:17,103 --> 00:17:18,931 Where a worker stitches A reflector 311 00:17:18,931 --> 00:17:20,931 Onto the athletic shoe upper. 312 00:17:24,275 --> 00:17:27,586 Other accent pieces call for More intricate stitching, 313 00:17:27,586 --> 00:17:31,344 So she arranges the parts On a computerized platform. 314 00:17:33,103 --> 00:17:35,551 The platform Moves back and forth, 315 00:17:35,551 --> 00:17:37,689 Allowing the needle To do a perfect job 316 00:17:37,689 --> 00:17:40,275 Of stitching the accent pieces To the upper. 317 00:17:40,275 --> 00:17:43,586 This stitching would be Difficult to execute manually. 318 00:17:46,758 --> 00:17:49,000 Once some of the more Substantial pieces 319 00:17:49,000 --> 00:17:50,586 Have been applied to the shoe, 320 00:17:50,586 --> 00:17:53,034 It's time to sew on A reflective logo, 321 00:17:53,034 --> 00:17:56,310 And the needle is once again Guided by computer software. 322 00:18:00,517 --> 00:18:02,827 This athletic-shoe upper Is now ready 323 00:18:02,827 --> 00:18:05,206 For its resin-fortified Leather toe tip. 324 00:18:05,206 --> 00:18:08,034 She stitches it in place, 325 00:18:08,034 --> 00:18:10,931 And then pieces together The collar 326 00:18:10,931 --> 00:18:13,793 And sews it To the back of the shoe. 327 00:18:16,379 --> 00:18:20,965 She installs thick foam padding On the inside of the collar, 328 00:18:20,965 --> 00:18:23,241 And then turns it right-side-out 329 00:18:23,241 --> 00:18:26,103 To tuck the padding Neatly inside and hide the seam. 330 00:18:31,034 --> 00:18:34,689 Putting on the collar Has obscured the top lace holes, 331 00:18:34,689 --> 00:18:37,620 So she clears them With a compressed-air punch. 332 00:18:41,413 --> 00:18:42,724 Down the line, 333 00:18:42,724 --> 00:18:45,655 More computerized needles Embroider brand information 334 00:18:45,655 --> 00:18:47,551 Onto the tongue panels. 335 00:18:54,275 --> 00:18:57,275 The next worker sews a liner And padding to the panel, 336 00:18:57,275 --> 00:19:00,137 Again working inside-out To hide the seam. 337 00:19:07,137 --> 00:19:09,482 Another worker Then stitches a fabric base 338 00:19:09,482 --> 00:19:11,482 Onto the athletic shoe. 339 00:19:15,172 --> 00:19:18,482 She applies a rigid plastic To the heel. 340 00:19:20,172 --> 00:19:23,862 That adds structure and support To the back part of the shoe. 341 00:19:28,206 --> 00:19:30,034 Further down The production line, 342 00:19:30,034 --> 00:19:35,241 A worker tugs the shoe Onto a foot form called a last. 343 00:19:35,241 --> 00:19:37,448 They heat it To make it malleable enough 344 00:19:37,448 --> 00:19:39,862 For this machine to pull it To the shape of the last. 345 00:19:39,862 --> 00:19:41,862 At the same time, 346 00:19:41,862 --> 00:19:47,310 Nozzles apply cement to glue The overlap to the fabric base. 347 00:19:47,310 --> 00:19:51,413 Then a machine heats both The upper and the rubber sole. 348 00:19:51,413 --> 00:19:54,103 The heat activates glue Applied to the sole earlier 349 00:19:54,103 --> 00:19:57,034 And also prepares the upper For bonding to that sole. 350 00:20:00,000 --> 00:20:04,862 They initially use manual force To press the two together, 351 00:20:04,862 --> 00:20:08,034 And then the shoe is subjected To mechanized pressure. 352 00:20:08,034 --> 00:20:09,896 Inside this machine, 353 00:20:09,896 --> 00:20:12,793 A rubber bladder expands To force the two together 354 00:20:12,793 --> 00:20:15,068 For a complete seal. 355 00:20:15,068 --> 00:20:18,758 The shoe then gets a foam insole With an arch support. 356 00:20:18,758 --> 00:20:20,724 The worker laces it partially 357 00:20:20,724 --> 00:20:23,482 And then pairs it up With the other shoe. 358 00:20:26,758 --> 00:20:30,724 An inspector examines the pair For defects. 359 00:20:32,241 --> 00:20:34,896 It has taken about 21 minutes 360 00:20:34,896 --> 00:20:38,689 To make this pair Of athletic shoes. 361 00:20:38,689 --> 00:20:42,206 And they should be able to take A real workout. 362 00:20:51,482 --> 00:20:53,655 If you have any comments About the show, 363 00:20:53,655 --> 00:20:56,482 Or if you'd like to suggest Topics for future shows, 364 00:20:56,482 --> 00:20:58,103 Drop us a line at... 29144