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These are the user uploaded subtitles that are being translated: 1 00:00:01,793 --> 00:00:04,793 --captions by vitac-- Www.Vitac.Com 2 00:00:04,793 --> 00:00:07,758 Captions paid for by Discovery communications 3 00:00:53,344 --> 00:00:56,551 Narrator: Cast-iron stoves have been Adding warmth to people's lives 4 00:00:56,551 --> 00:00:58,655 For more than three centuries. 5 00:00:58,655 --> 00:01:02,448 Today there are new reasons To cozy up to this invention. 6 00:01:02,448 --> 00:01:04,068 It's had a major update. 7 00:01:04,068 --> 00:01:07,482 Modern stoves burn wood More cleanly and efficiently, 8 00:01:07,482 --> 00:01:08,551 Providing heat 9 00:01:08,551 --> 00:01:11,379 Without the dirty fallout From the chimney. 10 00:01:15,517 --> 00:01:18,482 Modern cast-iron stoves Hardly resemble 11 00:01:18,482 --> 00:01:21,965 Their smoke-belching, Soot-spewing predecessors. 12 00:01:21,965 --> 00:01:24,620 The design creates A hotter fire, 13 00:01:24,620 --> 00:01:28,310 So it requires less fuel And releases little smoke. 14 00:01:28,310 --> 00:01:31,965 It all starts With a pile of iron scrap, 15 00:01:31,965 --> 00:01:37,482 Things like old stoves, sinks, Brake drums, and rotors. 16 00:01:40,137 --> 00:01:43,965 A magnetized crane Transfers the scrap 17 00:01:43,965 --> 00:01:46,793 To a propane-fired preheater. 18 00:01:49,758 --> 00:01:51,448 12 minutes Spent in the preheater 19 00:01:51,448 --> 00:01:54,586 Removes moisture From the iron scrap. 20 00:01:54,586 --> 00:01:57,827 The scrap iron Spills into a hopper 21 00:01:57,827 --> 00:02:00,931 That funnels it Into an electric furnace. 22 00:02:03,655 --> 00:02:05,482 The temperature in the furnace 23 00:02:05,482 --> 00:02:08,103 Is a blistering 2,700 degrees fahrenheit, 24 00:02:08,103 --> 00:02:12,862 And the iron melts Into a fiery liquid. 25 00:02:12,862 --> 00:02:15,793 The furnace tilts To pour the molten iron 26 00:02:15,793 --> 00:02:18,689 Into a ladle for transfer. 27 00:02:26,517 --> 00:02:29,310 Next, they make the molds Of the stove parts, 28 00:02:29,310 --> 00:02:32,758 Using a mix of sand, clay, Water, and coal. 29 00:02:32,758 --> 00:02:36,862 They blow the ingredients Between the aluminum patterns. 30 00:02:36,862 --> 00:02:42,034 A hydraulic system squeezes The patterns together. 31 00:02:42,034 --> 00:02:47,275 The sand mix compacts and takes The shape of the patterns. 32 00:02:47,275 --> 00:02:49,310 They now have sand molds. 33 00:02:54,517 --> 00:02:56,206 The molten iron arrives 34 00:02:56,206 --> 00:03:00,310 And flows into a channel Leading to the molds. 35 00:03:00,310 --> 00:03:02,275 As the liquid metal cools, 36 00:03:02,275 --> 00:03:05,344 It solidifies into the shape Of the mold. 37 00:03:05,344 --> 00:03:10,724 A vibrating conveyor shakes And breaks the sand molds 38 00:03:10,724 --> 00:03:15,793 To reveal The cast-iron stove parts. 39 00:03:15,793 --> 00:03:18,620 A worker knocks off Unwanted bits, 40 00:03:18,620 --> 00:03:21,448 And then It's into a blast cleaner. 41 00:03:23,827 --> 00:03:25,827 Inside the blast cleaner, 42 00:03:25,827 --> 00:03:28,724 Steel grit bombards The stove parts 43 00:03:28,724 --> 00:03:31,655 To remove remnants Of the sand molds 44 00:03:31,655 --> 00:03:33,827 And expose the metal. 45 00:03:37,551 --> 00:03:43,206 Essentially it blasts the dirt Off, and they come out clean. 46 00:03:43,206 --> 00:03:46,965 An employee grinds the edges Of the metal stove parts. 47 00:03:46,965 --> 00:03:49,034 He blends in the line created 48 00:03:49,034 --> 00:03:52,586 Where the two parts of the mold Came together during casting. 49 00:03:54,482 --> 00:03:57,793 It takes 40 parts to make One woodburning stove, 50 00:03:57,793 --> 00:04:01,586 And each one is cast in A sand mold made from a pattern. 51 00:04:05,448 --> 00:04:08,206 Next, a worker drills threads For the bolts 52 00:04:08,206 --> 00:04:11,206 That will hold all the parts Of the stove together. 53 00:04:15,793 --> 00:04:19,931 Once the surface of the parts Has been prepped, 54 00:04:19,931 --> 00:04:25,965 They spray an enamel coating Onto them and bake it on. 55 00:04:25,965 --> 00:04:28,586 A laser then cuts out A steel heat shield 56 00:04:28,586 --> 00:04:31,379 For the back of the wood stove. 57 00:04:31,379 --> 00:04:35,034 The intricate cuts Are computer driven. 58 00:04:38,586 --> 00:04:43,413 An employee bends the Heat shield to fit the stove. 59 00:04:43,413 --> 00:04:46,241 Next, a worker packs A kind of mortar 60 00:04:46,241 --> 00:04:49,000 Into a silicone mold Of the firebox. 61 00:04:49,000 --> 00:04:52,413 The table its on vibrates To settle the material 62 00:04:52,413 --> 00:04:54,379 And eliminate air pockets 63 00:04:54,379 --> 00:04:58,655 So the firebox will be able To withstand high temperatures. 64 00:04:58,655 --> 00:05:00,482 The shape of the firebox 65 00:05:00,482 --> 00:05:03,896 Is crucial to the stove's Energy efficiency, 66 00:05:03,896 --> 00:05:07,758 And so are the holes That have been molded into it. 67 00:05:07,758 --> 00:05:09,965 These strategically Located holes 68 00:05:09,965 --> 00:05:11,517 Will introduce fresh air 69 00:05:11,517 --> 00:05:14,965 To burn gases that would Otherwise go up in smoke, 70 00:05:14,965 --> 00:05:18,586 Preventing energy loss And pollution at the same time. 71 00:05:20,655 --> 00:05:22,724 The parts Have all been fabricated, 72 00:05:22,724 --> 00:05:25,275 And they're ready To put the pieces together. 73 00:05:25,275 --> 00:05:27,931 They assemble the stove From the bottom up. 74 00:05:27,931 --> 00:05:31,482 They bolt the parts and seal the Joints to make them airtight. 75 00:05:31,482 --> 00:05:34,827 The assembly takes About an hour. 76 00:05:39,655 --> 00:05:42,103 This cast-iron stove Is now ready 77 00:05:42,103 --> 00:05:45,931 To keep these fires burning For many years to come. 78 00:06:01,103 --> 00:06:02,965 Narrator: An ultralight aircraft 79 00:06:02,965 --> 00:06:05,241 Is a lightweight, Motorized flying machine 80 00:06:05,241 --> 00:06:06,827 That looks like a hang glider. 81 00:06:06,827 --> 00:06:09,517 Hang gliding inspired The invention of ultralights 82 00:06:09,517 --> 00:06:11,103 Back in the late 1970s. 83 00:06:11,103 --> 00:06:12,689 The idea was to create 84 00:06:12,689 --> 00:06:15,965 A slow but affordable method Of motorized flight 85 00:06:15,965 --> 00:06:19,413 Subject to minimal Aerospace regulations. 86 00:06:22,172 --> 00:06:25,172 They're called ultralights Or microlights. 87 00:06:25,172 --> 00:06:29,827 This made-in-france 2-seater Model weighs about 485 pounds. 88 00:06:29,827 --> 00:06:31,620 To be classified As an ultralight 89 00:06:31,620 --> 00:06:33,827 By the international Air sports federation, 90 00:06:33,827 --> 00:06:37,206 Takeoff weight Can't exceed 990 pounds 91 00:06:37,206 --> 00:06:41,413 And minimum speed can't surpass 40 miles per hour. 92 00:06:41,413 --> 00:06:44,103 The wing surface, Called the sail, 93 00:06:44,103 --> 00:06:47,448 Is made of a sturdy Polyester-based material 94 00:06:47,448 --> 00:06:49,103 Treated with a special coating 95 00:06:49,103 --> 00:06:51,827 That protects it From the sun's ultraviolet rays. 96 00:06:51,827 --> 00:06:54,896 They unroll different colors Of this fabric 97 00:06:54,896 --> 00:06:57,827 Onto a cutting table Marked with patterns 98 00:06:57,827 --> 00:07:00,482 For the four separate Sail sections. 99 00:07:03,344 --> 00:07:05,344 They staple the fabrics To the table 100 00:07:05,344 --> 00:07:08,206 To hold them steady While tracing the patterns. 101 00:07:08,206 --> 00:07:11,206 Once they finish tracing, They cut out the pieces, 102 00:07:11,206 --> 00:07:14,275 Then connect them With double-sided adhesive tape 103 00:07:14,275 --> 00:07:16,758 To position them correctly For sewing. 104 00:07:16,758 --> 00:07:18,551 They reinforce select areas 105 00:07:18,551 --> 00:07:21,413 With adhesive-backed Polyester mesh fabric. 106 00:07:24,241 --> 00:07:27,068 Then a sewer stitches The pieces together 107 00:07:27,068 --> 00:07:29,931 With high-strength, U.V.-resistant thread. 108 00:07:29,931 --> 00:07:32,827 In this first stage Of the sewing process, 109 00:07:32,827 --> 00:07:36,517 They stitch together 1/4 of the sail at a time. 110 00:07:36,517 --> 00:07:39,793 In the second stage of sewing, 111 00:07:39,793 --> 00:07:44,000 They sew together the top And undersurfaces of each side. 112 00:07:44,000 --> 00:07:45,965 Then, in the final stage, 113 00:07:45,965 --> 00:07:49,655 They stitch The right and left together. 114 00:07:49,655 --> 00:07:51,965 In another part of the factory, 115 00:07:51,965 --> 00:07:55,379 The body of the aircraft Begins taking shape. 116 00:07:55,379 --> 00:07:58,137 It's called the trike Because it sits on three wheels, 117 00:07:58,137 --> 00:07:59,724 Like a tricycle. 118 00:07:59,724 --> 00:08:01,448 They build it in sections, 119 00:08:01,448 --> 00:08:04,413 Welding together Several stainless-steel tubes. 120 00:08:04,413 --> 00:08:07,793 After the sections receive A baked-on coat of paint, 121 00:08:07,793 --> 00:08:09,862 Workers assemble them To each other 122 00:08:09,862 --> 00:08:11,620 Around the fuel tank. 123 00:08:11,620 --> 00:08:16,206 The 17-gallon tank is made Of lightweight polypropylene, 124 00:08:16,206 --> 00:08:18,827 A type of plastic That's u.V. Resistant 125 00:08:18,827 --> 00:08:21,206 And impact resistant. 126 00:08:21,206 --> 00:08:25,206 Once the trike Is fully assembled, 127 00:08:25,206 --> 00:08:27,206 They mount The three small wheels, 128 00:08:27,206 --> 00:08:30,344 Similar to those On motorized scooters. 129 00:08:38,275 --> 00:08:41,896 Next, they bolt a 100-horsepower Gasoline engine, 130 00:08:41,896 --> 00:08:44,310 Similar to a full-sized Motorcycle engine, 131 00:08:44,310 --> 00:08:46,275 To the back of the trike. 132 00:08:51,689 --> 00:08:54,827 On the front of the trike, They install pedals 133 00:08:54,827 --> 00:08:57,689 For propelling the craft On the ground... 134 00:08:57,689 --> 00:09:02,448 And a motorcycle-style plastic Console with windshield. 135 00:09:02,448 --> 00:09:05,241 The console houses The instrumentation panel. 136 00:09:08,275 --> 00:09:10,896 They mount the radiator In the center of the trike, 137 00:09:10,896 --> 00:09:13,068 Cover it with foam and fabric, 138 00:09:13,068 --> 00:09:15,413 Then install A pair of upholstered seats 139 00:09:15,413 --> 00:09:17,827 For pilot and passenger. 140 00:09:17,827 --> 00:09:21,137 Then they protect the engine With a plastic housing. 141 00:09:21,137 --> 00:09:23,965 They mount an aluminum- And-carbon-fiber propeller 142 00:09:23,965 --> 00:09:27,827 On the shaft of the gearbox Connected to the engine. 143 00:09:27,827 --> 00:09:29,241 Now for the wing. 144 00:09:29,241 --> 00:09:33,172 Its main structure is made up Of hinged aluminum tubes 145 00:09:33,172 --> 00:09:35,275 Which fold for transport. 146 00:09:35,275 --> 00:09:37,793 Aluminum is lightweight And rustproof, 147 00:09:37,793 --> 00:09:39,655 Which is essential for flight. 148 00:09:39,655 --> 00:09:44,241 They slip the sail over the Tubing, then unfold the wing. 149 00:09:44,241 --> 00:09:48,827 Thin aluminum tubes provide Crosswise structural support. 150 00:09:48,827 --> 00:09:54,103 A system of cables keeps The wing in the open position. 151 00:09:54,103 --> 00:09:56,620 Another system of cables, Called the corset, 152 00:09:56,620 --> 00:09:59,172 Manipulates The billowing of the sail. 153 00:09:59,172 --> 00:10:02,241 This enables the pilot To alter the aerodynamics 154 00:10:02,241 --> 00:10:05,482 To increase or reduce speed. 155 00:10:05,482 --> 00:10:08,137 Under the wing, They install the a-frame, 156 00:10:08,137 --> 00:10:10,551 The ultralight's Steering mechanism. 157 00:10:10,551 --> 00:10:14,275 The pilot manipulates the A-frame with a horizontal bar, 158 00:10:14,275 --> 00:10:18,517 Changing the trike's Body position under the wing. 159 00:10:18,517 --> 00:10:22,931 The last step is to bolt the Front of the trike to the wing 160 00:10:22,931 --> 00:10:27,137 And hook up The safety backup cables. 161 00:10:27,137 --> 00:10:29,448 The pilot steers the ultralight 162 00:10:29,448 --> 00:10:32,551 By weight-shifting With the a-frame bar, 163 00:10:32,551 --> 00:10:35,551 Tilting the trike Toward the front to descend, 164 00:10:35,551 --> 00:10:38,103 To the right to veer right, And so on. 165 00:10:38,103 --> 00:10:43,241 Typical cruising speed Is around 75 miles per hour. 166 00:10:43,241 --> 00:10:44,482 With an open cockpit, 167 00:10:44,482 --> 00:10:46,517 Air temperature And oxygen levels 168 00:10:46,517 --> 00:10:50,379 Limit how high An ultralight aircraft can fly. 169 00:10:50,379 --> 00:10:53,172 Maximum altitude Is about 3,300 feet, 170 00:10:53,172 --> 00:10:55,241 High enough for a thrill ride 171 00:10:55,241 --> 00:10:58,896 Yet still low enough For a spectacular view. 172 00:11:08,413 --> 00:11:11,482 Narrator: after a busy day Of skiing and snowboarding, 173 00:11:11,482 --> 00:11:13,551 Ski slopes get worn down 174 00:11:13,551 --> 00:11:17,379 And develop ruts, bumps, Ice, and bare spots. 175 00:11:17,379 --> 00:11:20,551 Ski resorts typically refresh The slopes overnight 176 00:11:20,551 --> 00:11:24,068 By grooming the snow With specialized track machines. 177 00:11:24,068 --> 00:11:26,793 By morning, The runs are as good as new. 178 00:11:29,827 --> 00:11:32,758 A snow groomer is like A bulldozer on tracks, 179 00:11:32,758 --> 00:11:35,793 Except instead of pushing dirt, It pushes snow. 180 00:11:35,793 --> 00:11:39,724 It uses grooming implements Mounted to the front and back. 181 00:11:39,724 --> 00:11:41,275 To build a snow groomer, 182 00:11:41,275 --> 00:11:44,241 Workers begin by aligning Front and rear frames 183 00:11:44,241 --> 00:11:45,862 With the vehicle's main frame 184 00:11:45,862 --> 00:11:48,655 With the help Of positioning jigs. 185 00:11:50,689 --> 00:11:52,793 Then a welder gets to work. 186 00:11:52,793 --> 00:11:55,724 First, He tacks everything together. 187 00:11:55,724 --> 00:11:57,655 Then, with a mechanical lift, 188 00:11:57,655 --> 00:12:00,241 He raises and tilts The tacked frame 189 00:12:00,241 --> 00:12:02,827 To gain access From various angles. 190 00:12:02,827 --> 00:12:05,620 After welding on Additional parts, 191 00:12:05,620 --> 00:12:07,034 Including 10 axles, 192 00:12:07,034 --> 00:12:09,517 They prime and paint the frame. 193 00:12:09,517 --> 00:12:13,862 Then a mechanic installs A heavy-duty suspension system 194 00:12:13,862 --> 00:12:15,965 Designed to automatically adapt 195 00:12:15,965 --> 00:12:18,310 To the type and shape Of terrain, 196 00:12:18,310 --> 00:12:19,758 Maximizing traction. 197 00:12:19,758 --> 00:12:23,137 Next, he greases the 10 axles 198 00:12:23,137 --> 00:12:27,241 And installs a wheel hub And bearings on each one. 199 00:12:30,000 --> 00:12:31,724 He then mounts the wheel, 200 00:12:31,724 --> 00:12:34,655 Tightening the bolts To a specified torque 201 00:12:34,655 --> 00:12:39,137 To ensure optimal performance And durability. 202 00:12:42,793 --> 00:12:47,827 Meanwhile, another mechanic Installs the hydraulic hoses. 203 00:12:47,827 --> 00:12:50,241 These control The grooming implements 204 00:12:50,241 --> 00:12:53,034 And the sprocket On which each track turns. 205 00:12:53,034 --> 00:12:57,482 Then he connects the hoses To the main hydraulic valve. 206 00:12:57,482 --> 00:12:59,137 At another workstation, 207 00:12:59,137 --> 00:13:02,034 A mechanic assembles The diesel engine, 208 00:13:02,034 --> 00:13:05,137 The transmission, And four hydraulic pumps. 209 00:13:05,137 --> 00:13:08,413 Two of these pumps drive oil To the hydraulic motors, 210 00:13:08,413 --> 00:13:11,344 Which propel the vehicle Forward and backward. 211 00:13:11,344 --> 00:13:13,724 The two others Pump hydraulic fluid 212 00:13:13,724 --> 00:13:16,862 To operate the implements And the cooling system. 213 00:13:16,862 --> 00:13:19,344 They lower this assembled unit Into the frame 214 00:13:19,344 --> 00:13:23,000 And make the required electrical And hydraulic connections. 215 00:13:23,000 --> 00:13:25,965 Meanwhile, another team prepares The next unit, 216 00:13:25,965 --> 00:13:28,241 Starting With the cooling system, 217 00:13:28,241 --> 00:13:30,620 Two powerful fans Which cool the engine 218 00:13:30,620 --> 00:13:32,517 And hydraulic fluid. 219 00:13:32,517 --> 00:13:34,965 Next, they install The exhaust system 220 00:13:34,965 --> 00:13:37,413 And two batteries To power the engine. 221 00:13:37,413 --> 00:13:40,482 They mount this assembled unit Above the transmission 222 00:13:40,482 --> 00:13:42,862 And make All the necessary connections. 223 00:13:42,862 --> 00:13:45,103 They lower the cab Onto the frame, 224 00:13:45,103 --> 00:13:47,862 Connect more electrical And hydraulic lines, 225 00:13:47,862 --> 00:13:52,103 And fill all systems With their respective fluids. 226 00:13:52,103 --> 00:13:54,586 The vehicle now undergoes Extensive testing 227 00:13:54,586 --> 00:13:55,793 In a dynamometer, 228 00:13:55,793 --> 00:13:58,068 Which operates the engine And hydraulic components 229 00:13:58,068 --> 00:14:01,344 At maximum capacity. 230 00:14:01,344 --> 00:14:05,448 If all systems perform according To engineering specifications, 231 00:14:05,448 --> 00:14:07,482 The vehicle gets the go-ahead 232 00:14:07,482 --> 00:14:10,862 To receive The snow-grooming implements. 233 00:14:10,862 --> 00:14:12,689 The rear implement is a tiller, 234 00:14:12,689 --> 00:14:15,344 Which breaks up the snow Into small particles 235 00:14:15,344 --> 00:14:18,000 And shapes narrowly spaced Parallel lines 236 00:14:18,000 --> 00:14:20,620 On the trail surface. 237 00:14:20,620 --> 00:14:23,034 A powerful, Built-in hydraulic motor 238 00:14:23,034 --> 00:14:25,689 Spins the steel-toothed rotors At speeds 239 00:14:25,689 --> 00:14:28,413 Of up to 1,350 revolutions Per minute. 240 00:14:28,413 --> 00:14:31,206 This ensures Even grooming throughout. 241 00:14:31,206 --> 00:14:36,310 The groomer's tracks are made Of ultra-durable steel. 242 00:14:36,310 --> 00:14:39,000 A mechanic guides The edge of each track 243 00:14:39,000 --> 00:14:41,551 Onto a high-strength Urethane sprocket 244 00:14:41,551 --> 00:14:44,275 Bolted to the rear of the frame 245 00:14:44,275 --> 00:14:47,517 While another mechanic slowly Drives the vehicle forward 246 00:14:47,517 --> 00:14:49,655 To pull the track Over the wheels. 247 00:14:52,724 --> 00:14:54,931 Then they clamp the two ends Together 248 00:14:54,931 --> 00:14:59,103 And join them with giant hinges, Closing the loop. 249 00:15:02,172 --> 00:15:05,034 It's time to mount The snow-grooming implements. 250 00:15:05,034 --> 00:15:07,379 They attach the tiller To the rear mechanism, 251 00:15:07,379 --> 00:15:09,482 Which carries The hydraulic connections 252 00:15:09,482 --> 00:15:12,310 For the implement's Onboard motor. 253 00:15:12,310 --> 00:15:17,068 They attach a blade to The identical front mechanism. 254 00:15:17,068 --> 00:15:18,206 The blade plows snow 255 00:15:18,206 --> 00:15:20,413 And sculpts features Such as half-pipes, 256 00:15:20,413 --> 00:15:24,344 Those giant, U-shaped bowls of snow 257 00:15:24,344 --> 00:15:28,896 In which freestyle skiers And daredevil snowboarders ride. 258 00:15:28,896 --> 00:15:32,000 For safety, The cabin has a steel skeleton 259 00:15:32,000 --> 00:15:34,103 With roll-over protection Features. 260 00:15:34,103 --> 00:15:36,103 A specially designed joystick 261 00:15:36,103 --> 00:15:38,655 Gives the driver Precision control 262 00:15:38,655 --> 00:15:40,517 Over the blade and tiller. 263 00:15:40,517 --> 00:15:44,034 The state-of-the-art electronics Include three computers, 264 00:15:44,034 --> 00:15:45,551 Which enable the driver 265 00:15:45,551 --> 00:15:48,758 To select and adjust Different functions and modes, 266 00:15:48,758 --> 00:15:51,655 All of it displaying On a color monitor. 267 00:15:51,655 --> 00:15:54,379 The vehicle Never sinks into the snow 268 00:15:54,379 --> 00:15:58,103 Because its weight is optimally Balanced on the tracks. 269 00:15:58,103 --> 00:16:00,137 This 22,000-pound snow groomer 270 00:16:00,137 --> 00:16:03,103 Actually exerts less pressure On the snow 271 00:16:03,103 --> 00:16:06,482 Than a single person does On foot. 272 00:16:16,275 --> 00:16:18,482 Narrator: the rubber band Was invented in england 273 00:16:18,482 --> 00:16:20,758 In the middle Of the 19th century. 274 00:16:20,758 --> 00:16:23,793 The key to its success, Of course, is flexibility. 275 00:16:23,793 --> 00:16:25,655 A rubber band can be stretched 276 00:16:25,655 --> 00:16:28,172 Around items Of various shapes and sizes 277 00:16:28,172 --> 00:16:29,586 To hold them together, 278 00:16:29,586 --> 00:16:31,482 So in the rubber-band industry, 279 00:16:31,482 --> 00:16:34,241 The possibilities for expansion Are numerous. 280 00:16:37,482 --> 00:16:40,758 Rubber bands come in handy For a whole bunch of things. 281 00:16:40,758 --> 00:16:42,655 If you have a bunch of anything, 282 00:16:42,655 --> 00:16:44,896 A rubber band Can keep it together. 283 00:16:44,896 --> 00:16:49,586 Production of rubber bands Starts with natural rubber. 284 00:16:49,586 --> 00:16:51,275 These spongy slabs Have been made 285 00:16:51,275 --> 00:16:53,172 From the sap of rubber trees. 286 00:16:53,172 --> 00:16:55,689 Natural rubber Has greater elasticity 287 00:16:55,689 --> 00:16:57,517 Than the synthetic kind, 288 00:16:57,517 --> 00:17:00,413 Making it a better choice For rubber bands. 289 00:17:00,413 --> 00:17:03,689 A worker measures and pours Rubber processing oil 290 00:17:03,689 --> 00:17:05,586 Into a kneader machine. 291 00:17:05,586 --> 00:17:09,344 He adds powdered pigment -- In this case, yellow and white 292 00:17:09,344 --> 00:17:13,689 For a pale yellow shade. 293 00:17:13,689 --> 00:17:16,206 He feeds several rubber slabs 294 00:17:16,206 --> 00:17:20,206 To the kneader's Spiral-shaped jaws. 295 00:17:20,206 --> 00:17:25,620 The spiraling blades intersect To break up the rubber 296 00:17:25,620 --> 00:17:28,931 And blend in The other ingredients. 297 00:17:28,931 --> 00:17:33,758 The kneading process generates Heat which softens the rubber, 298 00:17:33,758 --> 00:17:36,827 Making it easier To form into dough. 299 00:17:39,413 --> 00:17:42,000 The kneader spits out Rubber-dough chunks. 300 00:17:45,137 --> 00:17:48,482 Next, a giant rolling pin Transforms the dough 301 00:17:48,482 --> 00:17:51,137 Into wide, thin pieces. 302 00:17:54,344 --> 00:17:56,310 He slices the strips And bundles them. 303 00:17:56,310 --> 00:17:57,586 In this form, 304 00:17:57,586 --> 00:18:00,655 It will be easier to control The weight of the rubber 305 00:18:00,655 --> 00:18:03,448 In relation to chemicals That are added next. 306 00:18:06,068 --> 00:18:07,413 They roll the rubber 307 00:18:07,413 --> 00:18:09,896 With a precise amount of sulfur And other chemicals 308 00:18:09,896 --> 00:18:13,137 That strengthen the rubber And make it more elastic. 309 00:18:17,448 --> 00:18:20,862 They then roll the rubber Very thin. 310 00:18:20,862 --> 00:18:23,620 A worker twists and cuts it Into small bundles 311 00:18:23,620 --> 00:18:26,551 That fit into the opening Of an extruding machine. 312 00:18:28,724 --> 00:18:31,000 It forces the still-warm And malleable rubber 313 00:18:31,000 --> 00:18:35,344 Through dies to shape it Into long, hollow tubes. 314 00:18:35,344 --> 00:18:38,241 The extruder injects air And talcum powder into the tubes 315 00:18:38,241 --> 00:18:40,620 To keep the walls From collapsing 316 00:18:40,620 --> 00:18:43,103 And sticking together While warm. 317 00:18:43,103 --> 00:18:46,137 The tubes cool down In a trough of water, 318 00:18:46,137 --> 00:18:50,068 And they deflate As the injected air dissipates. 319 00:18:50,068 --> 00:18:53,172 Next, these aluminum poles Will serve as molds 320 00:18:53,172 --> 00:18:55,068 For the tubes during curing, 321 00:18:55,068 --> 00:18:59,241 Giving them the correct shape And diameter. 322 00:19:02,551 --> 00:19:05,172 The worker slides the tubes Onto the molds. 323 00:19:05,172 --> 00:19:09,000 The talcum powder injected into The tubes during their extrusion 324 00:19:09,000 --> 00:19:11,206 Will also act As a release agent, 325 00:19:11,206 --> 00:19:14,620 Keeping them from sticking To the molds during curing. 326 00:19:16,379 --> 00:19:18,724 They load the tubes Into a steam oven, 327 00:19:18,724 --> 00:19:21,206 And the intense heat vulcanizes The rubber 328 00:19:21,206 --> 00:19:24,931 To boost its tensile strength And elasticity. 329 00:19:29,413 --> 00:19:30,655 Out of the oven, 330 00:19:30,655 --> 00:19:33,827 Workers inject air between The tubes and the molds, 331 00:19:33,827 --> 00:19:38,551 Making it easier to peel The now-vulcanized tubes off. 332 00:19:41,620 --> 00:19:45,482 They rinse the rubber tubes To remove talcum-powder residue. 333 00:19:45,482 --> 00:19:48,724 There's so much that the water Turns milky white. 334 00:19:51,344 --> 00:19:54,620 They hang the rubber tubes To drain away some of the water. 335 00:19:54,620 --> 00:19:58,586 By the time they're ready To cut, they're a bit too dry, 336 00:19:58,586 --> 00:20:01,413 So a worker splashes water Onto them. 337 00:20:01,413 --> 00:20:03,068 With the tubes moistened, 338 00:20:03,068 --> 00:20:05,862 The next operation Will run more smoothly. 339 00:20:05,862 --> 00:20:09,724 He feeds several tubes at once To a rotating blade 340 00:20:09,724 --> 00:20:11,275 Which carves them. 341 00:20:11,275 --> 00:20:15,896 This creates elastic bands That are exactly the same width. 342 00:20:15,896 --> 00:20:18,448 In this case, That's 1.5 millimeters, 343 00:20:18,448 --> 00:20:22,206 An average thickness For a rubber band. 344 00:20:25,413 --> 00:20:28,689 With this system, they can cut 1/2 a million rubber bands 345 00:20:28,689 --> 00:20:31,586 In an hour. 346 00:20:31,586 --> 00:20:34,379 It doesn't take long For the inventory to pile up. 347 00:20:34,379 --> 00:20:37,310 There are millions Of rubber bands here. 348 00:20:37,310 --> 00:20:42,448 A worker scoops them up and Examines each one for defects. 349 00:20:45,448 --> 00:20:48,896 Once approved, all that's left Is the packaging. 350 00:20:48,896 --> 00:20:51,068 The rubber bands ride a conveyor 351 00:20:51,068 --> 00:20:54,413 That releases them in increments Into plastic bags. 352 00:20:56,241 --> 00:20:57,793 It has taken about three hours 353 00:20:57,793 --> 00:21:00,620 To produce this bag Of rubber bands. 354 00:21:00,620 --> 00:21:05,206 On a normal day, this factory Generates 40 million elastics. 355 00:21:05,206 --> 00:21:09,896 That's a lot by any stretch Of the imagination. 356 00:21:21,793 --> 00:21:24,275 If you have any comments About the show, 357 00:21:24,275 --> 00:21:27,068 Or if you'd like to suggest Topics for future shows, 358 00:21:27,068 --> 00:21:29,551 Drop us a line at... 28966