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These are the user uploaded subtitles that are being translated: 1 00:00:53,275 --> 00:00:55,758 Narrator: a dragster's tires Take quite a beating 2 00:00:55,758 --> 00:00:59,137 During the brief, But fast run down the racetrack. 3 00:00:59,137 --> 00:01:01,827 The tires have to face Full-on acceleration 4 00:01:01,827 --> 00:01:03,724 Right out of the starting gate, 5 00:01:03,724 --> 00:01:06,413 Then heavy-duty braking After the finish line, 6 00:01:06,413 --> 00:01:08,586 With the car Deploying a rear parachute 7 00:01:08,586 --> 00:01:11,448 And slowing to an eventual stop. 8 00:01:13,655 --> 00:01:17,310 A drag race is The ultimate automotive sprint, 9 00:01:17,310 --> 00:01:18,620 With rapid acceleration 10 00:01:18,620 --> 00:01:22,137 To speeds Topping 310 miles per hour. 11 00:01:22,137 --> 00:01:25,827 Optimal tire traction Can give a car the winning edge. 12 00:01:25,827 --> 00:01:29,862 Dragster tires, like most tires, Are made from rubber, 13 00:01:29,862 --> 00:01:33,068 Which hasn't been cured To a firm and permanent state. 14 00:01:33,068 --> 00:01:34,758 For most parts of the tire, 15 00:01:34,758 --> 00:01:38,172 They reinforce the rubber With nylon fabric. 16 00:01:38,172 --> 00:01:41,103 The machine heats and kneads Rubber slabs until they melt, 17 00:01:41,103 --> 00:01:44,965 Then coats both sides of the Material with a molten rubber. 18 00:01:44,965 --> 00:01:48,000 When the fabric-reinforced Sheet of rubber cools, 19 00:01:48,000 --> 00:01:51,655 The machine slices it into Pieces of a specific length, 20 00:01:51,655 --> 00:01:55,413 Making the cuts at a diagonal, Called a bias angle. 21 00:01:55,413 --> 00:01:58,689 A skilled tire builder then Joins the edges of the piece 22 00:01:58,689 --> 00:01:59,724 To form a band, 23 00:01:59,724 --> 00:02:01,862 Sticks it to an identical band 24 00:02:01,862 --> 00:02:04,344 Made of An opposite bias piece -- 25 00:02:04,344 --> 00:02:06,448 Layering increases strength -- 26 00:02:06,448 --> 00:02:11,137 Then stretches this two-ply band Over a tire-building machine. 27 00:02:11,137 --> 00:02:12,862 Next, he applies the belts, 28 00:02:12,862 --> 00:02:16,206 Two opposing bias pieces Of fabric-reinforced rubber, 29 00:02:16,206 --> 00:02:20,793 Which he lays diagonally onto The tread area of the tire. 30 00:02:20,793 --> 00:02:23,586 A laser guide marks the edges 31 00:02:23,586 --> 00:02:26,448 So that he can match the belts To each other. 32 00:02:26,448 --> 00:02:29,827 These belts help give the tire Stiffness, strength, 33 00:02:29,827 --> 00:02:31,551 And stability. 34 00:02:36,034 --> 00:02:38,931 He uses a roller To press out any trapped air 35 00:02:38,931 --> 00:02:41,000 Between the plies and belts. 36 00:02:41,000 --> 00:02:43,689 This helps ensure A thorough bond. 37 00:02:43,689 --> 00:02:47,241 After a stitcher wheel Folds down the plies, 38 00:02:47,241 --> 00:02:50,793 He folds the ends of The material into the machine. 39 00:02:50,793 --> 00:02:53,827 Then, he applies A contact cement-type material 40 00:02:53,827 --> 00:02:57,310 To enhance the natural adhesion Of uncured rubber. 41 00:02:57,310 --> 00:03:02,275 Meanwhile, an automated machine Makes the tires' beads, 42 00:03:02,275 --> 00:03:05,034 The rigid hoops around both Sides of the opening, 43 00:03:05,034 --> 00:03:07,344 Which holds the tire Firmly to the wheel. 44 00:03:07,344 --> 00:03:10,862 Each bead is made From a thick, steel wire. 45 00:03:10,862 --> 00:03:15,206 The machine First encapsulates it in rubber. 46 00:03:23,413 --> 00:03:27,551 Then, it winds the bead around A mandrill up to 50 times, 47 00:03:27,551 --> 00:03:28,689 Forming a hoop. 48 00:03:28,689 --> 00:03:31,931 The machine forms four beads At a time. 49 00:03:37,034 --> 00:03:38,931 The next machine wraps the hoop 50 00:03:38,931 --> 00:03:41,413 In a piece Of fabric-reinforced rubber. 51 00:03:41,413 --> 00:03:44,655 This additional layer Will stiffen the sidewall, 52 00:03:44,655 --> 00:03:46,965 The non-treaded area Of the tire. 53 00:03:51,931 --> 00:03:54,689 The builder uses a tool Called a bead server 54 00:03:54,689 --> 00:03:57,068 To mount the finished bead. 55 00:03:57,068 --> 00:03:58,793 While the tire is spinning, 56 00:03:58,793 --> 00:04:01,620 He applies the contact Cement-type material 57 00:04:01,620 --> 00:04:03,896 To help The rubber-to-rubber adhesion 58 00:04:03,896 --> 00:04:07,482 When he wraps the plies around The bead to secure it further. 59 00:04:11,413 --> 00:04:14,793 The stitcher wheel Smoothes the plies flat 60 00:04:14,793 --> 00:04:17,965 And pushes out trapped air. 61 00:04:17,965 --> 00:04:19,482 Then, the tire builder 62 00:04:19,482 --> 00:04:23,758 Applies a strip of Fabric-reinforced rubber on top 63 00:04:23,758 --> 00:04:25,068 And rolls it flat. 64 00:04:25,068 --> 00:04:28,103 This strip will make The bead area more durable 65 00:04:28,103 --> 00:04:30,758 When the tire Is mounted on a wheel. 66 00:04:30,758 --> 00:04:33,034 He applies a layer Of non-reinforced rubber 67 00:04:33,034 --> 00:04:34,068 On the sidewall. 68 00:04:34,068 --> 00:04:36,931 This covers The edges of the plies 69 00:04:36,931 --> 00:04:40,758 And will help the tire Retain air once it's inflated. 70 00:04:40,758 --> 00:04:44,172 This machine makes the tread by Extruding molten rubber 71 00:04:44,172 --> 00:04:47,000 Through a dye Into a continuous strip, 72 00:04:47,000 --> 00:04:50,413 Then applying it Onto the spinning tire. 73 00:04:50,413 --> 00:04:54,241 The fully constructed tire Now goes into a press to cure. 74 00:04:54,241 --> 00:04:57,689 Inside, a hot mold closes Around the perimeter, 75 00:04:57,689 --> 00:04:59,724 While a bag inflates In the middle, 76 00:04:59,724 --> 00:05:03,137 Pushing the tire outward Against the walls of the mold. 77 00:05:03,137 --> 00:05:05,724 When the tire comes out, About half an hour later, 78 00:05:05,724 --> 00:05:08,172 The rubber is no longer Soft and pliable, 79 00:05:08,172 --> 00:05:10,931 And its chemical structure Is stabilized, 80 00:05:10,931 --> 00:05:13,413 Locking in the final dimensions. 81 00:05:13,413 --> 00:05:16,413 Workers seal the wheel opening And inflate the tire 82 00:05:16,413 --> 00:05:19,793 To hold the shape Until the rubber cools. 83 00:05:19,793 --> 00:05:21,827 Once the rubber has cooled To room temperature, 84 00:05:21,827 --> 00:05:23,344 Which takes about an hour, 85 00:05:23,344 --> 00:05:26,620 The tire undergoes a series Of quality-control checks. 86 00:05:26,620 --> 00:05:29,931 Here, a worker performs A visual inspection 87 00:05:29,931 --> 00:05:33,379 While trimming off excess rubber From the bead area. 88 00:05:33,379 --> 00:05:37,448 Before the decals go on, They also x-ray the tire, 89 00:05:37,448 --> 00:05:40,793 Looking for any internal flaws. 90 00:05:40,793 --> 00:05:44,172 Life in the fast lane, While exciting, is short. 91 00:05:44,172 --> 00:05:46,172 Dragster tires Need to be replaced 92 00:05:46,172 --> 00:05:50,000 Every four to six trips Down the drag strip. 93 00:06:02,551 --> 00:06:04,724 Narrator: icing dates back To 17th-century england. 94 00:06:04,724 --> 00:06:07,586 Early versions Were poured directly onto cake. 95 00:06:07,586 --> 00:06:09,517 The cake was then Put back in the oven 96 00:06:09,517 --> 00:06:12,206 Until the topping Cooked into an icelike glaze, 97 00:06:12,206 --> 00:06:14,310 Hence the term icing. 98 00:06:14,310 --> 00:06:18,862 Hundreds of years later, Success never tasted sweeter. 99 00:06:22,965 --> 00:06:26,586 Today, icing comes ready-made In cans and tubes. 100 00:06:26,586 --> 00:06:29,758 No need to make a sticky mess In the kitchen. 101 00:06:29,758 --> 00:06:32,758 Just press the nozzle To transform a plain cupcake 102 00:06:32,758 --> 00:06:36,137 Into an elaborate dessert. 103 00:06:36,137 --> 00:06:40,034 It takes a dozen different Ingredients to make icing, 104 00:06:40,034 --> 00:06:43,206 Beginning with Vegetable-oil shortening. 105 00:06:43,206 --> 00:06:46,758 They encapsulate food coloring In the block of shortening. 106 00:06:46,758 --> 00:06:49,620 This keeps the food coloring From becoming airborne, 107 00:06:49,620 --> 00:06:52,206 As a mixture creams The shortening with sugar, 108 00:06:52,206 --> 00:06:55,275 Which they pipe Directly into the mixer basin. 109 00:06:55,275 --> 00:06:58,103 Sugar is the main ingredient In icing. 110 00:07:02,172 --> 00:07:04,655 Corn syrup Is the next ingredient. 111 00:07:04,655 --> 00:07:09,172 It adds more sweetness And liquidity to the mix. 112 00:07:09,172 --> 00:07:12,413 The mixer arm spirals around The basin for a few minutes 113 00:07:12,413 --> 00:07:16,724 To blend everything. 114 00:07:16,724 --> 00:07:21,931 Then, they add cornstarch, which Will act as a thickening agent. 115 00:07:21,931 --> 00:07:25,965 They pour warm water into the Mixture and beat until smooth. 116 00:07:25,965 --> 00:07:28,724 If the icing consistency Is too thin, 117 00:07:28,724 --> 00:07:32,103 They thicken it with more sugar. 118 00:07:32,103 --> 00:07:35,448 This 1,000-pound batch of icing Is done, 119 00:07:35,448 --> 00:07:40,068 And there's enough to fill 2,000 aluminum cans. 120 00:07:40,068 --> 00:07:42,896 A conveyor Delivers the cans to fillers 121 00:07:42,896 --> 00:07:46,517 That inject half a pound Of icing into each can. 122 00:07:52,689 --> 00:07:55,689 The system fills 3,600 cans an hour, 123 00:07:55,689 --> 00:07:59,137 And no one has to get Their fingers sticky. 124 00:07:59,137 --> 00:08:02,275 Plastic nozzles now funnel Toward the containers, 125 00:08:02,275 --> 00:08:03,862 And with perfect timing, 126 00:08:03,862 --> 00:08:08,310 A press seals one to each Of the icing-filled cans. 127 00:08:10,310 --> 00:08:11,793 At the same time, 128 00:08:11,793 --> 00:08:15,448 A pump shoots air into a small Hole in the bottom of the can. 129 00:08:15,448 --> 00:08:19,482 This pressurizes the icing so it Can be pumped out when needed. 130 00:08:21,206 --> 00:08:23,965 The burst of air carries A tiny, rubber cap with it, 131 00:08:23,965 --> 00:08:27,482 And it plugs the hole To maintain the pressure. 132 00:08:29,724 --> 00:08:34,068 The cans move forward and meet Up with the applicator tips. 133 00:08:36,517 --> 00:08:39,137 There are four tips per can, 134 00:08:39,137 --> 00:08:42,172 Held together By little, plastic connectors. 135 00:08:42,172 --> 00:08:45,310 The four applicator clusters Fall out of the feeder 136 00:08:45,310 --> 00:08:47,344 And land on the can nozzles. 137 00:08:48,931 --> 00:08:52,586 Clear caps then fall into place On the cans. 138 00:08:56,517 --> 00:08:59,896 A blade cuts a labeled plastic Sleeve to the correct length. 139 00:08:59,896 --> 00:09:02,551 The sleeve drops onto the cans, 140 00:09:02,551 --> 00:09:05,000 Draping them loosely For the moment. 141 00:09:08,137 --> 00:09:10,620 They ride by A spinning plastic disk 142 00:09:10,620 --> 00:09:13,068 That tucks the sleeves All the way down. 143 00:09:15,689 --> 00:09:17,379 Then, it's into a drier, 144 00:09:17,379 --> 00:09:21,551 Where the heat shrinks the wrap To the cans, sealing the icing. 145 00:09:23,862 --> 00:09:26,379 It's a perfect fit. 146 00:09:31,172 --> 00:09:35,758 Next, they make icing For packaging in squeeze tubes. 147 00:09:35,758 --> 00:09:38,172 They blend together The same ingredients, 148 00:09:38,172 --> 00:09:41,517 But in different amounts And in a different order. 149 00:09:41,517 --> 00:09:44,586 This achieves A thicker consistency. 150 00:09:44,586 --> 00:09:48,517 Thicker icing can be more Easily squeezed out of tubes. 151 00:09:50,068 --> 00:09:55,034 For ready-made icing, it really Is all in the packaging. 152 00:09:55,034 --> 00:09:57,724 A mechanized arm Picks up the squeeze tube 153 00:09:57,724 --> 00:10:00,655 And delivers it To the filling machine. 154 00:10:03,413 --> 00:10:07,413 A vacuum pump sucks out air And any contaminants. 155 00:10:09,137 --> 00:10:13,517 Another mechanism Orients the tube for filling. 156 00:10:13,517 --> 00:10:16,413 Nozzles now inject thick, Yellow icing into the tubes, 157 00:10:16,413 --> 00:10:18,275 But stop short At a complete fill-up, 158 00:10:18,275 --> 00:10:21,448 Leaving space For the open ends to be closed 159 00:10:21,448 --> 00:10:23,379 And sealed by hot jaws. 160 00:10:29,172 --> 00:10:33,034 Once closed, The machine ejects the tubes. 161 00:10:33,034 --> 00:10:36,551 Each one contains Four ounces of icing. 162 00:10:36,551 --> 00:10:39,068 It's about half as much As the can. 163 00:10:39,068 --> 00:10:41,965 To decorate with icing From a tube, 164 00:10:41,965 --> 00:10:45,965 The consumer squeezes it Out of the bottom tip. 165 00:10:45,965 --> 00:10:51,344 To apply icing from a can, You pump it out of the top. 166 00:10:51,344 --> 00:10:55,931 No matter how you ice it, The result will be sweet. 167 00:11:09,827 --> 00:11:12,482 The egyptians Built the earliest known docks 168 00:11:12,482 --> 00:11:15,137 On the shores of the red sea Around 2500 bc. 169 00:11:15,137 --> 00:11:17,379 More than 4,000 years later, 170 00:11:17,379 --> 00:11:20,620 Our lakes and rivers are dotted With floating structures 171 00:11:20,620 --> 00:11:23,931 Where boaters can dock Their crafts, go for a dip, 172 00:11:23,931 --> 00:11:28,793 Or just lounge in the sun. 173 00:11:28,793 --> 00:11:30,689 Floating docks can be much more 174 00:11:30,689 --> 00:11:33,482 Than just walkways Where you tie up your boat. 175 00:11:33,482 --> 00:11:37,413 They can be waterborne buildings With slips, jet-ski ports, 176 00:11:37,413 --> 00:11:40,793 And even a rooftop deck. 177 00:11:40,793 --> 00:11:42,413 This facility has created 178 00:11:42,413 --> 00:11:45,310 Its own computer-aided Design software. 179 00:11:45,310 --> 00:11:49,551 With it, they can quickly design Each component of a dock in 3-d. 180 00:11:49,551 --> 00:11:52,896 The program will even calculate How many floats are needed 181 00:11:52,896 --> 00:11:54,379 And where they should be placed 182 00:11:54,379 --> 00:11:57,206 To keep the dock level In the water. 183 00:11:57,206 --> 00:12:00,448 Thanks to its lightweight, Rustproof strength, 184 00:12:00,448 --> 00:12:04,103 Aluminum is the ideal material For building docks. 185 00:12:04,103 --> 00:12:07,724 All the aluminum here has been Extruded in unique shapes 186 00:12:07,724 --> 00:12:10,517 According To the design requirements. 187 00:12:10,517 --> 00:12:13,793 The plans are printed, And workers consult them closely 188 00:12:13,793 --> 00:12:16,310 As they cut And form the material. 189 00:12:16,310 --> 00:12:18,655 The blades they use Are specially designed 190 00:12:18,655 --> 00:12:20,206 For cutting aluminum. 191 00:12:20,206 --> 00:12:23,275 They use a variety of methods To form the shapes, 192 00:12:23,275 --> 00:12:26,137 Including drill presses Equipped with components 193 00:12:26,137 --> 00:12:28,068 Called hole saws. 194 00:12:29,482 --> 00:12:32,206 Workers lay the material out On the factory floor 195 00:12:32,206 --> 00:12:35,448 In preparation For assembling the structure. 196 00:12:35,448 --> 00:12:37,689 The final assembly Of the floating docks 197 00:12:37,689 --> 00:12:42,517 Will happen on the water At the site. 198 00:12:42,517 --> 00:12:45,034 They tack-weld the parts To each other, 199 00:12:45,034 --> 00:12:47,586 Then make sure Everything is perfectly square 200 00:12:47,586 --> 00:12:50,275 Before doing the final weld. 201 00:12:50,275 --> 00:12:54,724 Unlike steel, aluminum loses Strength when it's welded. 202 00:12:54,724 --> 00:12:57,379 For this reason, The designers of these docks 203 00:12:57,379 --> 00:13:01,827 Have created special aluminum Sleeves for every major joint. 204 00:13:01,827 --> 00:13:04,103 That means there's extra metal Supporting the weld 205 00:13:04,103 --> 00:13:08,068 And strengthening the structure. 206 00:13:08,068 --> 00:13:10,275 To make sure Everything fits properly, 207 00:13:10,275 --> 00:13:13,517 The workers join the sections To each other 208 00:13:13,517 --> 00:13:16,620 With stainless-steel bolts And lock nuts. 209 00:13:16,620 --> 00:13:19,379 There is minimal reaction Between the different metals, 210 00:13:19,379 --> 00:13:21,517 Because there is So little stainless steel 211 00:13:21,517 --> 00:13:25,068 Relative to the quantity Of aluminum being used. 212 00:13:25,068 --> 00:13:28,137 Once the bottom section Of the dock is assembled, 213 00:13:28,137 --> 00:13:30,379 Workers build up from there. 214 00:13:30,379 --> 00:13:32,517 For this test phase, They use shortened, 215 00:13:32,517 --> 00:13:36,275 Temporary roof poles To make the process easier. 216 00:13:36,275 --> 00:13:39,413 The blue material on the poles Is polyethylene bushing, 217 00:13:39,413 --> 00:13:41,448 Which prevents creaking 218 00:13:41,448 --> 00:13:44,689 When the dock is stressed In turbulent water. 219 00:13:44,689 --> 00:13:46,896 Because aluminum Is so lightweight, 220 00:13:46,896 --> 00:13:50,034 There's no need for cranes In an aluminum dock facility. 221 00:13:50,034 --> 00:13:54,482 Manpower is enough. 222 00:13:54,482 --> 00:13:57,862 Workers attach a series Of narrow, aluminum tubes, 223 00:13:57,862 --> 00:14:00,413 Called purlins, To the roof and deck. 224 00:14:00,413 --> 00:14:04,344 Workers install the roofing By screwing it into the purlins. 225 00:14:04,344 --> 00:14:06,965 In most cases, The roof won't be installed 226 00:14:06,965 --> 00:14:10,241 Until the dock is assembled On-site. 227 00:14:10,241 --> 00:14:12,931 Satisfied that everything Assembles correctly, 228 00:14:12,931 --> 00:14:15,310 The workers take it all apart. 229 00:14:15,310 --> 00:14:19,206 They flip the lower sections Over and attach the floats. 230 00:14:19,206 --> 00:14:22,655 These floats consist of Roto-molded polyethylene shells. 231 00:14:22,655 --> 00:14:26,137 Styrofoam has been Expanded in place 232 00:14:26,137 --> 00:14:28,034 To fit inside the shell Perfectly. 233 00:14:28,034 --> 00:14:32,137 Even if the outer shell breaks, The dock will still float. 234 00:14:33,689 --> 00:14:36,758 This facility offers A range of decking options 235 00:14:36,758 --> 00:14:40,137 From aluminum to concrete To plastic composite 236 00:14:40,137 --> 00:14:43,758 To specialty woods like This one, which is called ipe. 237 00:14:43,758 --> 00:14:48,413 Like teak, ipe is incredibly Durable and extremely stable. 238 00:14:48,413 --> 00:14:51,793 In other words, it won't rot, Swell, or contract, 239 00:14:51,793 --> 00:14:56,137 Despite extended exposure To a high-humidity environment. 240 00:14:59,344 --> 00:15:03,448 If the dock has an upper deck, It needs a railing. 241 00:15:03,448 --> 00:15:05,241 It's important to have something To lean against 242 00:15:05,241 --> 00:15:07,724 When you're sipping cocktails And watching the sunset 243 00:15:07,724 --> 00:15:08,931 After a long boat ride. 244 00:15:08,931 --> 00:15:12,758 Of course, it's also A crucial safety feature. 245 00:15:12,758 --> 00:15:15,827 There are 12 different Components to assemble 246 00:15:15,827 --> 00:15:17,551 For just this one section, 247 00:15:17,551 --> 00:15:20,793 And there might be as many As 15 different sections 248 00:15:20,793 --> 00:15:23,448 Of varying lengths For an entire dock. 249 00:15:25,275 --> 00:15:28,103 Customers can choose to add A range of accessories 250 00:15:28,103 --> 00:15:30,620 To floating docks Made at this facility. 251 00:15:30,620 --> 00:15:33,000 To make things like safety Railings and ladders, 252 00:15:33,000 --> 00:15:36,172 Workers use A hydraulic bending machine 253 00:15:36,172 --> 00:15:39,517 To shape aluminum tubing To the required contours. 254 00:15:39,517 --> 00:15:41,758 All the aluminum these Manufacturers use 255 00:15:41,758 --> 00:15:44,689 In their floating docks Is a marine-grade alloy 256 00:15:44,689 --> 00:15:47,137 Especially resistant To degradation 257 00:15:47,137 --> 00:15:49,758 When exposed to water. 258 00:15:49,758 --> 00:15:52,724 Finally, it's time to build The docks in place. 259 00:15:52,724 --> 00:15:56,241 Thanks to careful planning on The part of the manufacturers, 260 00:15:56,241 --> 00:15:58,000 Assembly is a breeze. 261 00:15:58,000 --> 00:16:00,551 The crew doesn't need Much more than a ratchet set 262 00:16:00,551 --> 00:16:02,241 To pull it all together. 263 00:16:02,241 --> 00:16:05,517 It's smooth sailing From here on out. 264 00:16:17,379 --> 00:16:19,793 In the modern world, steel pipes Form an underground network 265 00:16:19,793 --> 00:16:23,172 To deliver necessities Like drinking water or fuel. 266 00:16:23,172 --> 00:16:25,793 These pipes are often Spirally welded 267 00:16:25,793 --> 00:16:28,103 And can be made in any size. 268 00:16:28,103 --> 00:16:31,172 In fact, longer pipe Means fewer joints 269 00:16:31,172 --> 00:16:34,379 And less work To install them underground. 270 00:16:37,896 --> 00:16:42,551 Spirally welded pipes can be Short, or they can go on and on. 271 00:16:42,551 --> 00:16:44,586 The potential length Is limitless, 272 00:16:44,586 --> 00:16:46,758 Because, Unlike other kinds of pipes, 273 00:16:46,758 --> 00:16:48,965 Spiral pipes Don't have to conform 274 00:16:48,965 --> 00:16:53,586 To the size of a forming roll or The dimensions of a steel plate. 275 00:16:53,586 --> 00:16:58,275 They can spiral-weld these coils Of steel sheets endlessly. 276 00:17:01,103 --> 00:17:04,931 But first they have to take the Kink out of the coiled steel. 277 00:17:04,931 --> 00:17:08,068 A machine unwinds it 278 00:17:08,068 --> 00:17:13,448 And pushes it between rollers To completely flatten it. 279 00:17:13,448 --> 00:17:15,758 A fixed arm then presses The steel against rollers 280 00:17:15,758 --> 00:17:19,413 To round it To a precise diameter, 281 00:17:19,413 --> 00:17:23,482 And an automated system welds The formed pipe from the inside. 282 00:17:23,482 --> 00:17:26,068 A barely visible mantel Of powdered flux 283 00:17:26,068 --> 00:17:28,448 Protects the welding process. 284 00:17:31,896 --> 00:17:34,034 Copper-coated steel wire 285 00:17:34,034 --> 00:17:36,827 Acts as both an electrode For the welding process 286 00:17:36,827 --> 00:17:40,068 And as filler material. 287 00:17:40,068 --> 00:17:42,655 With the inside weld complete, 288 00:17:42,655 --> 00:17:45,310 A second welder device Works on the outside of the pipe 289 00:17:45,310 --> 00:17:48,241 To give it a double-welded seam. 290 00:17:51,241 --> 00:17:55,482 A plasma torch cuts the pipe To length cleanly by melting it. 291 00:17:55,482 --> 00:17:57,620 In this case, They're making a water pipe 292 00:17:57,620 --> 00:18:03,103 That's 6 feet in diameter And 50 feet in length. 293 00:18:03,103 --> 00:18:07,172 The pipe then rolls over To the next station. 294 00:18:09,310 --> 00:18:12,137 Here, a worker grinds Both ends of the pipe 295 00:18:12,137 --> 00:18:14,034 To improve the profile. 296 00:18:18,103 --> 00:18:20,379 Then it's over to a die. 297 00:18:20,379 --> 00:18:22,103 It stretches one end of the pipe 298 00:18:22,103 --> 00:18:25,379 To create a slight flare, Or bell. 299 00:18:25,379 --> 00:18:27,896 This will allow it to Be connected to the narrower end 300 00:18:27,896 --> 00:18:32,068 Of another pipe, forming What's known as a lap joint. 301 00:18:32,068 --> 00:18:34,310 Next, they cap The ends of the pipe 302 00:18:34,310 --> 00:18:37,931 And pump in water To a highly pressurized state. 303 00:18:37,931 --> 00:18:39,586 They look for leaks in the weld 304 00:18:39,586 --> 00:18:41,896 And confirm That it's watertight. 305 00:18:41,896 --> 00:18:45,482 Another worker installs rubber Dams at both ends of the pipe. 306 00:18:51,137 --> 00:18:55,655 A cement fixture then flows into A long applicator with a nozzle. 307 00:18:58,068 --> 00:19:01,758 The nozzle applies the cement To the pipe's inner wall 308 00:19:01,758 --> 00:19:04,931 As the pipe spins and generates A centrifugal effect 309 00:19:04,931 --> 00:19:07,724 That's 70 times The force of gravity. 310 00:19:07,724 --> 00:19:11,206 This causes the cement To be distributed uniformly. 311 00:19:11,206 --> 00:19:15,689 The rubber dams contain The cement during this process. 312 00:19:15,689 --> 00:19:18,275 The spinning displaces water In the cement, 313 00:19:18,275 --> 00:19:22,241 And a blower forces that water Out of the pipe. 314 00:19:22,241 --> 00:19:25,931 Next, a worker drapes plastic Onto both ends of the pipe. 315 00:19:25,931 --> 00:19:28,586 He tacks it with magnets 316 00:19:28,586 --> 00:19:31,034 And then secures it tightly With an elastic cord. 317 00:19:33,827 --> 00:19:36,793 He pumps hot steam Into the pipe. 318 00:19:36,793 --> 00:19:42,103 Over a period of 18 hours, The steam cures the cement. 319 00:19:42,103 --> 00:19:44,827 It's a slow cure For better structural integrity. 320 00:19:44,827 --> 00:19:47,620 For our camera, They open one end of the pipe 321 00:19:47,620 --> 00:19:51,034 For an inside look At the steaming action. 322 00:19:51,034 --> 00:19:54,724 18 hours later, They remove the rubber dams. 323 00:19:54,724 --> 00:20:00,068 The spiral-welded pipe now has A tough, protective inner liner. 324 00:20:00,068 --> 00:20:03,310 Next, the pipe moves into A blast chamber, 325 00:20:03,310 --> 00:20:06,379 Where fine, steel shot Bombards the outside of the pipe 326 00:20:06,379 --> 00:20:08,379 To clean it thoroughly. 327 00:20:08,379 --> 00:20:11,482 This prepares it For the next step. 328 00:20:13,310 --> 00:20:16,275 A sprayer applies A liquid adhesive. 329 00:20:18,586 --> 00:20:21,896 Over the adhesive, they wrap A polyethylene-backed tape. 330 00:20:23,965 --> 00:20:26,827 They apply A total of three layers of tape. 331 00:20:26,827 --> 00:20:29,724 The first one Provides corrosion protection 332 00:20:29,724 --> 00:20:33,310 To the spirally welded steel. 333 00:20:33,310 --> 00:20:36,758 The other two layers Protect the first. 334 00:20:36,758 --> 00:20:41,689 They give the spirally welded Pipe a tough outer skin. 335 00:20:41,689 --> 00:20:44,482 The three tapes are color-coded. 336 00:20:44,482 --> 00:20:46,482 This will allow The depth of any damage 337 00:20:46,482 --> 00:20:49,206 To be quickly assessed on-site. 338 00:20:55,551 --> 00:20:59,310 They produce approximately 15 spirally welded water pipes 339 00:20:59,310 --> 00:21:02,758 Per eight-hour shift At this factory. 340 00:21:05,068 --> 00:21:09,689 They should last for a century Underground. 341 00:21:09,689 --> 00:21:12,689 --captions by vitac-- Www.Vitac.Com 342 00:21:12,689 --> 00:21:15,689 Captions paid for by Discovery communications 343 00:21:21,931 --> 00:21:23,965 If you have any comments About the show, 344 00:21:23,965 --> 00:21:26,827 Or if you'd like to suggest Topics for future shows, 345 00:21:26,827 --> 00:21:28,896 Drop us a line at... 28696